To use the YouTube summarizer:

1. Copy the YouTube video link.
2. Paste the link into the provided input field.
3. Click the 'Summarize' button. The summary with timestamps will be generated.

identifier: 1224

model: gemini-2.0-flash-exp| input-price: 0.1 output-price: 0.4 max-context-length: 128_000

host: 78.131.91.175

https://youtu.be/ogtVQ48VgC4?si=TC6kCIxXal2hebt1

include_comments: None

include_timestamps: 1

include_glossary: None

output_language: en

cost: 0.5

*PAO (Person-Action-Object) System for Memorization*

*   *0:00 Introduction to PAO:* The video explains the PAO system as an advanced method for memorizing numbers, names, and sentences.
*   *0:06 PAO System Basics (0:06):* The PAO involves breaking down information into person, action, and object elements for memorable associations.
*   *0:06 Number to Image Conversion:* Numbers are converted into images based on the major system.
*   *0:00 Example:* 21 (Jack Nicholson), 36 (throwing burning matches), 90 (at a bus).
*   *0:22 Major System Preference:* The video highlights the creator’s preference for the major system due to its logic.
*   *0:25 Major System Overview:* The major system assigns consonants to digits (e.g., 2=N, 1=T/D).
*   *0:04 Giarno Bruno and Historical Context:* Mentions figures like Bruno and "De umbris idearum" for adding depth to memory techniques.
*   *0:06 Bestiary Connection:* Refers to Mary Carruthers' book, "Memory Craft," and the concept of a Bestiary for images.
*   *0:06 How to Create Your PAO:* Commit to doing it, then writing the major, and then work out your possible images there.
*   *0:09 Mandarin Example:* Using the PAO system and locations to memorize the Tones from Madarin.
*   *0:10 Latin Example:* Using the PAO system and locations to memorize Latin.
*   *0:10 Connection to Aristotle's Nuclear Alphabet:* Recommends watching another video for more details on building PAOs.
*   *0:11 Example of Practical Application (0:11):* Demonstrates using the PAO system to remember the number 22 and connecting it to a statue and an image of Mr. Bean dressed as a nun.
*   *0:12 The key to success:* Commitment to the major system, and constant re-evaluation.
*   *1:00:* Recommends watching another video on Aristotle's Nuclear Alphabet


I used gemini-2.0-flash-exp| input-price: 0.1 output-price: 0.4 max-context-length: 128_000 on rocketrecap dot com to summarize the transcript.
Cost (if I didn't use the free tier): $0.50
Input tokens: 13739
Output tokens: 491

PAO (Person-Action-Object) System for Memorization

• 0:00 Introduction to PAO: The video explains the PAO system as an advanced method for memorizing numbers, names, and sentences.
• 0:06 PAO System Basics (0:06): The PAO involves breaking down information into person, action, and object elements for memorable associations.
• 0:06 Number to Image Conversion: Numbers are converted into images based on the major system.
• 0:00 Example: 21 (Jack Nicholson), 36 (throwing burning matches), 90 (at a bus).
• 0:22 Major System Preference: The video highlights the creator’s preference for the major system due to its logic.
• 0:25 Major System Overview: The major system assigns consonants to digits (e.g., 2=N, 1=T/D).
• 0:04 Giarno Bruno and Historical Context: Mentions figures like Bruno and "De umbris idearum" for adding depth to memory techniques.
• 0:06 Bestiary Connection: Refers to Mary Carruthers' book, "Memory Craft," and the concept of a Bestiary for images.
• 0:06 How to Create Your PAO: Commit to doing it, then writing the major, and then work out your possible images there.
• 0:09 Mandarin Example: Using the PAO system and locations to memorize the Tones from Madarin.
• 0:10 Latin Example: Using the PAO system and locations to memorize Latin.
• 0:10 Connection to Aristotle's Nuclear Alphabet: Recommends watching another video for more details on building PAOs.
• 0:11 Example of Practical Application (0:11): Demonstrates using the PAO system to remember the number 22 and connecting it to a statue and an image of Mr. Bean dressed as a nun.
• 0:12 The key to success: Commitment to the major system, and constant re-evaluation.
• 1:00: Recommends watching another video on Aristotle's Nuclear Alphabet

Below, I will provide input for an example video (comprising of title, description, and transcript, in this order) and the corresponding summary I expect. Afterward, I will provide a new transcript that I want you to summarize in the same format. 

**Please summarize the transcript in a self-contained bullet list format.** Include starting timestamps, important details and key takeaways. 

Example Input: 
Fluidigm Polaris Part 2- illuminator and camera
mikeselectricstuff
131K subscribers
Subscribed
369
Share
Download
Clip
Save
5,857 views Aug 26, 2024
Fluidigm Polaris part 1 : • Fluidigm Polaris (Part 1) - Biotech g...
Ebay listings: https://www.ebay.co.uk/usr/mikeselect...
Merch https://mikeselectricstuff.creator-sp...
Transcript
Follow along using the transcript.
Show transcript
mikeselectricstuff
131K subscribers
Videos
About
Support on Patreon
40 Comments
@robertwatsonbath
6 hours ago
Thanks Mike. Ooof! - with the level of bodgery going on around 15:48 I think shame would have made me do a board re spin, out of my own pocket if I had to.
1
Reply
@Muonium1
9 hours ago
The green LED looks different from the others and uses phosphor conversion because of the "green gap" problem where green InGaN emitters suffer efficiency droop at high currents. Phosphide based emitters don't start becoming efficient until around 600nm so also can't be used for high power green emitters. See the paper and plot by Matthias Auf der Maur in his 2015 paper on alloy fluctuations in InGaN as the cause of reduced external quantum efficiency at longer (green) wavelengths.
4
Reply
1 reply
@tafsirnahian669
10 hours ago (edited)
Can this be used as an astrophotography camera?
Reply
mikeselectricstuff
·
1 reply
@mikeselectricstuff
6 hours ago
Yes, but may need a shutter to avoid light during readout
Reply
@2010craggy
11 hours ago
Narrowband filters we use in Astronomy (Astrophotography) are sided- they work best passing light in one direction so I guess the arrows on the filter frames indicate which way round to install them in the filter wheel.
1
Reply
@vitukz
12 hours ago
A mate with Channel @extractions&ire could use it
2
Reply
@RobertGallop
19 hours ago
That LED module says it can go up to 28 amps!!! 21 amps for 100%. You should see what it does at 20 amps!
Reply
@Prophes0r
19 hours ago
I had an "Oh SHIT!" moment when I realized that the weird trapezoidal shape of that light guide was for keystone correction of the light source.
Very clever.
6
Reply
@OneBiOzZ
20 hours ago
given the cost of the CCD you think they could have run another PCB for it
9
Reply
@tekvax01
21 hours ago
$20 thousand dollars per minute of run time!
1
Reply
@tekvax01
22 hours ago
"We spared no expense!" John Hammond Jurassic Park.
*(that's why this thing costs the same as a 50-seat Greyhound Bus coach!)
Reply
@florianf4257
22 hours ago
The smearing on the image could be due to the fact that you don't use a shutter, so you see brighter stripes under bright areas of the image as you still iluminate these pixels while the sensor data ist shifted out towards the top. I experienced this effect back at university with a LN-Cooled CCD for Spectroscopy. The stripes disapeared as soon as you used the shutter instead of disabling it in the open position (but fokussing at 100ms integration time and continuous readout with a focal plane shutter isn't much fun).
12
Reply
mikeselectricstuff
·
1 reply
@mikeselectricstuff
12 hours ago
I didn't think of that, but makes sense
2
Reply
@douro20
22 hours ago (edited)
The red LED reminds me of one from Roithner Lasertechnik. I have a Symbol 2D scanner which uses two very bright LEDs from that company, one red and one red-orange. The red-orange is behind a lens which focuses it into an extremely narrow beam.
1
Reply
@RicoElectrico
23 hours ago
PFG is Pulse Flush Gate according to the datasheet.
Reply
@dcallan812
23 hours ago
Very interesting. 2x
Reply
@littleboot_
1 day ago
Cool interesting device
Reply
@dav1dbone
1 day ago
I've stripped large projectors, looks similar, wonder if some of those castings are a magnesium alloy?
Reply
@kevywevvy8833
1 day ago
ironic that some of those Phlatlight modules are used in some of the cheapest disco lights.
1
Reply
1 reply
@bill6255
1 day ago
Great vid - gets right into subject in title, its packed with information, wraps up quickly. Should get a YT award! imho
3
Reply
@JAKOB1977
1 day ago (edited)
The whole sensor module incl. a 5 grand 50mpix sensor for 49 £.. highest bid atm
Though also a limited CCD sensor, but for the right buyer its a steal at these relative low sums.
Architecture Full Frame CCD (Square Pixels)
Total Number of Pixels 8304 (H) × 6220 (V) = 51.6 Mp
Number of Effective Pixels 8208 (H) × 6164 (V) = 50.5 Mp
Number of Active Pixels 8176 (H) × 6132 (V) = 50.1 Mp
Pixel Size 6.0 m (H) × 6.0 m (V)
Active Image Size 49.1 mm (H) × 36.8 mm (V)
61.3 mm (Diagonal),
645 1.1x Optical Format
Aspect Ratio 4:3
Horizontal Outputs 4
Saturation Signal 40.3 ke−
Output Sensitivity 31 V/e−
Quantum Efficiency
KAF−50100−CAA
KAF−50100−AAA
KAF−50100−ABA (with Lens)
22%, 22%, 16% (Peak R, G, B)
25%
62%
Read Noise (f = 18 MHz) 12.5 e−
Dark Signal (T = 60°C) 42 pA/cm2
Dark Current Doubling Temperature 5.7°C
Dynamic Range (f = 18 MHz) 70.2 dB
Estimated Linear Dynamic Range
(f = 18 MHz)
69.3 dB
Charge Transfer Efficiency
Horizontal
Vertical
0.999995
0.999999
Blooming Protection
(4 ms Exposure Time)
800X Saturation Exposure
Maximum Date Rate 18 MHz
Package Ceramic PGA
Cover Glass MAR Coated, 2 Sides or
Clear Glass
Features
• TRUESENSE Transparent Gate Electrode
for High Sensitivity
• Ultra-High Resolution
• Board Dynamic Range
• Low Noise Architecture
• Large Active Imaging Area
Applications
• Digitization
• Mapping/Aerial
• Photography
• Scientific
Thx for the tear down Mike, always a joy
Reply
@martinalooksatthings
1 day ago
15:49 that is some great bodging on of caps, they really didn't want to respin that PCB huh
8
Reply
@RhythmGamer
1 day ago
Was depressed today and then a new mike video dropped and now I’m genuinely happy to get my tear down fix
1
Reply
@dine9093
1 day ago (edited)
Did you transfrom into Mr Blobby for a moment there?
2
Reply
@NickNorton
1 day ago
Thanks Mike. Your videos are always interesting.
5
Reply
@KeritechElectronics
1 day ago
Heavy optics indeed... Spare no expense, cost no object. Splendid build quality. The CCD is a thing of beauty!
1
Reply
@YSoreil
1 day ago
The pricing on that sensor is about right, I looked in to these many years ago when they were still in production since it's the only large sensor you could actually buy. Really cool to see one in the wild.
2
Reply
@snik2pl
1 day ago
That leds look like from led projector
Reply
@vincei4252
1 day ago
TDI = Time Domain Integration ?
1
Reply
@wolpumba4099
1 day ago (edited)
Maybe the camera should not be illuminated during readout.
From the datasheet of the sensor (Onsemi): saturation 40300 electrons, read noise 12.5 electrons per pixel @ 18MHz (quite bad). quantum efficiency 62% (if it has micro lenses), frame rate 1 Hz. lateral overflow drain to prevent blooming protects against 800x (factor increases linearly with exposure time) saturation exposure (32e6 electrons per pixel at 4ms exposure time), microlens has +/- 20 degree acceptance angle
i guess it would be good for astrophotography
4
Reply
@txm100
1 day ago (edited)
Babe wake up a new mikeselectricstuff has dropped!
9
Reply
@vincei4252
1 day ago
That looks like a finger-lakes filter wheel, however, for astronomy they'd never use such a large stepper.
1
Reply
@MRooodddvvv
1 day ago
yaaaaay ! more overcomplicated optical stuff !
4
Reply
1 reply
@NoPegs
1 day ago
He lives!
11
Reply
1 reply
Transcript
0:00
so I've stripped all the bits of the
0:01
optical system so basically we've got
0:03
the uh the camera
0:05
itself which is mounted on this uh very
0:09
complex
0:10
adjustment thing which obviously to set
0:13
you the various tilt and uh alignment
0:15
stuff then there's two of these massive
0:18
lenses I've taken one of these apart I
0:20
think there's something like about eight
0:22
or nine Optical elements in here these
0:25
don't seem to do a great deal in terms
0:26
of electr magnification they're obiously
0:28
just about getting the image to where it
0:29
uh where it needs to be just so that
0:33
goes like that then this Optical block I
0:36
originally thought this was made of some
0:37
s crazy heavy material but it's just
0:39
really the sum of all these Optical bits
0:41
are just ridiculously heavy those lenses
0:43
are about 4 kilos each and then there's
0:45
this very heavy very solid um piece that
0:47
goes in the middle and this is so this
0:49
is the filter wheel assembly with a
0:51
hilariously oversized steper
0:53
motor driving this wheel with these very
0:57
large narrow band filters so we've got
1:00
various different shades of uh
1:03
filters there five Al together that
1:06
one's actually just showing up a silver
1:07
that's actually a a red but fairly low
1:10
transmission orangey red blue green
1:15
there's an excess cover on this side so
1:16
the filters can be accessed and changed
1:19
without taking anything else apart even
1:21
this is like ridiculous it's like solid
1:23
aluminium this is just basically a cover
1:25
the actual wavelengths of these are um
1:27
488 525 570 630 and 700 NM not sure what
1:32
the suffix on that perhaps that's the uh
1:34
the width of the spectral line say these
1:37
are very narrow band filters most of
1:39
them are you very little light through
1:41
so it's still very tight narrow band to
1:43
match the um fluoresence of the dies
1:45
they're using in the biochemical process
1:48
and obviously to reject the light that's
1:49
being fired at it from that Illuminator
1:51
box and then there's a there's a second
1:53
one of these lenses then the actual sort
1:55
of samples below that so uh very serious
1:58
amount of very uh chunky heavy Optics
2:01
okay let's take a look at this light
2:02
source made by company Lumen Dynamics
2:04
who are now part of
2:06
excelitas self-contained unit power
2:08
connector USB and this which one of the
2:11
Cable Bundle said was a TTL interface
2:14
USB wasn't used in uh the fluid
2:17
application output here and I think this
2:19
is an input for um light feedback I
2:21
don't if it's regulated or just a measur
2:23
measurement facility and the uh fiber
2:27
assembly
2:29
Square Inlet there and then there's two
2:32
outputs which have uh lens assemblies
2:35
and this small one which goes back into
2:37
that small Port just Loops out of here
2:40
straight back in So on this side we've
2:42
got the electronics which look pretty
2:44
straightforward we've got a bit of power
2:45
supply stuff over here and we've got
2:48
separate drivers for each wavelength now
2:50
interesting this is clearly been very
2:52
specifically made for this application
2:54
you I was half expecting like say some
2:56
generic drivers that could be used for a
2:58
number of different things but actually
3:00
literally specified the exact wavelength
3:02
on the PCB there is provision here for
3:04
385 NM which isn't populated but this is
3:07
clearly been designed very specifically
3:09
so these four drivers look the same but
3:10
then there's two higher power ones for
3:12
575 and
3:14
520 a slightly bigger heat sink on this
3:16
575 section there a p 24 which is
3:20
providing USB interface USB isolator the
3:23
USB interface just presents as a comport
3:26
I did have a quick look but I didn't
3:27
actually get anything sensible um I did
3:29
dump the Pi code out and there's a few
3:31
you a few sort of commands that you
3:32
could see in text but I didn't actually
3:34
manage to get it working properly I
3:36
found some software for related version
3:38
but it didn't seem to want to talk to it
3:39
but um I say that wasn't used for the
3:41
original application it might be quite
3:42
interesting to get try and get the Run
3:44
hours count out of it and the TTL
3:46
interface looks fairly straightforward
3:48
we've got positions for six opto
3:50
isolators but only five five are
3:52
installed so that corresponds with the
3:54
unused thing so I think this hopefully
3:56
should be as simple as just providing a
3:57
ttrl signal for each color to uh enable
4:00
it a big heat sink here which is there I
4:03
think there's like a big S of metal
4:04
plate through the middle of this that
4:05
all the leads are mounted on the other
4:07
side so this is heat sinking it with a
4:09
air flow from a uh just a fan in here
4:13
obviously don't have the air flow
4:14
anywhere near the Optics so conduction
4:17
cool through to this plate that's then
4:18
uh air cooled got some pots which are
4:21
presumably power
4:22
adjustments okay let's take a look at
4:24
the other side which is uh much more
4:27
interesting see we've got some uh very
4:31
uh neatly Twisted cable assemblies there
4:35
a bunch of leads so we've got one here
4:37
475 up here 430 NM 630 575 and 520
4:44
filters and dcro mirrors a quick way to
4:48
see what's white is if we just shine
4:49
some white light through
4:51
here not sure how it is is to see on the
4:54
camera but shining white light we do
4:55
actually get a bit of red a bit of blue
4:57
some yellow here so the obstacle path
5:00
575 it goes sort of here bounces off
5:03
this mirror and goes out the 520 goes
5:07
sort of down here across here and up
5:09
there 630 goes basically straight
5:13
through
5:15
430 goes across there down there along
5:17
there and the 475 goes down here and
5:20
left this is the light sensing thing
5:22
think here there's just a um I think
5:24
there a photo diode or other sensor
5:26
haven't actually taken that off and
5:28
everything's fixed down to this chunk of
5:31
aluminium which acts as the heat
5:32
spreader that then conducts the heat to
5:33
the back side for the heat
5:35
sink and the actual lead packages all
5:38
look fairly similar except for this one
5:41
on the 575 which looks quite a bit more
5:44
substantial big spay
5:46
Terminals and the interface for this
5:48
turned out to be extremely simple it's
5:50
literally a 5V TTL level to enable each
5:54
color doesn't seem to be any tensity
5:56
control but there are some additional
5:58
pins on that connector that weren't used
5:59
in the through time thing so maybe
6:01
there's some extra lines that control
6:02
that I couldn't find any data on this uh
6:05
unit and the um their current product
6:07
range is quite significantly different
6:09
so we've got the uh blue these
6:13
might may well be saturating the camera
6:16
so they might look a bit weird so that's
6:17
the 430
6:18
blue the 575
6:24
yellow uh
6:26
475 light blue
6:29
the uh 520
6:31
green and the uh 630 red now one
6:36
interesting thing I noticed for the
6:39
575 it's actually it's actually using a
6:42
white lead and then filtering it rather
6:44
than using all the other ones are using
6:46
leads which are the fundamental colors
6:47
but uh this is actually doing white and
6:50
it's a combination of this filter and
6:52
the dichroic mirrors that are turning to
6:55
Yellow if we take the filter out and a
6:57
lot of the a lot of the um blue content
7:00
is going this way the red is going
7:02
straight through these two mirrors so
7:05
this is clearly not reflecting much of
7:08
that so we end up with the yellow coming
7:10
out of uh out of there which is a fairly
7:14
light yellow color which you don't
7:16
really see from high intensity leads so
7:19
that's clearly why they've used the
7:20
white to uh do this power consumption of
7:23
the white is pretty high so going up to
7:25
about 2 and 1 half amps on that color
7:27
whereas most of the other colors are
7:28
only drawing half an amp or so at 24
7:30
volts the uh the green is up to about
7:32
1.2 but say this thing is uh much
7:35
brighter and if you actually run all the
7:38
colors at the same time you get a fairly
7:41
reasonable um looking white coming out
7:43
of it and one thing you might just be
7:45
out to notice is there is some sort
7:46
color banding around here that's not
7:49
getting uh everything s completely
7:51
concentric and I think that's where this
7:53
fiber optic thing comes
7:58
in I'll
8:00
get a couple of Fairly accurately shaped
8:04
very sort of uniform color and looking
8:06
at What's um inside here we've basically
8:09
just got this Square Rod so this is
8:12
clearly yeah the lights just bouncing
8:13
off all the all the various sides to um
8:16
get a nice uniform illumination uh this
8:19
back bit looks like it's all potted so
8:21
nothing I really do to get in there I
8:24
think this is fiber so I have come
8:26
across um cables like this which are
8:27
liquid fill but just looking through the
8:30
end of this it's probably a bit hard to
8:31
see it does look like there fiber ends
8:34
going going on there and so there's this
8:36
feedback thing which is just obviously
8:39
compensating for the any light losses
8:41
through here to get an accurate
8:43
representation of uh the light that's
8:45
been launched out of these two
8:47
fibers and you see uh
8:49
these have got this sort of trapezium
8:54
shape light guides again it's like a
8:56
sort of acrylic or glass light guide
9:00
guess projected just to make the right
9:03
rectangular
9:04
shape and look at this Center assembly
9:07
um the light output doesn't uh change
9:10
whether you feed this in or not so it's
9:11
clear not doing any internal Clos Loop
9:14
control obviously there may well be some
9:16
facility for it to do that but it's not
9:17
being used in this
9:19
application and so this output just
9:21
produces a voltage on the uh outle
9:24
connector proportional to the amount of
9:26
light that's present so there's a little
9:28
diffuser in the back there
9:30
and then there's just some kind of uh
9:33
Optical sensor looks like a
9:35
chip looking at the lead it's a very
9:37
small package on the PCB with this lens
9:40
assembly over the top and these look
9:43
like they're actually on a copper
9:44
Metalized PCB for maximum thermal
9:47
performance and yeah it's a very small
9:49
package looks like it's a ceramic
9:51
package and there's a thermister there
9:53
for temperature monitoring this is the
9:56
475 blue one this is the 520 need to
9:59
Green which is uh rather different OB
10:02
it's a much bigger D with lots of bond
10:04
wise but also this looks like it's using
10:05
a phosphor if I shine a blue light at it
10:08
lights up green so this is actually a
10:10
phosphor conversion green lead which
10:12
I've I've come across before they want
10:15
that specific wavelength so they may be
10:17
easier to tune a phosphor than tune the
10:20
um semiconductor material to get the uh
10:23
right right wavelength from the lead
10:24
directly uh red 630 similar size to the
10:28
blue one or does seem to have a uh a
10:31
lens on top of it there is a sort of red
10:33
coloring to
10:35
the die but that doesn't appear to be
10:38
fluorescent as far as I can
10:39
tell and the white one again a little
10:41
bit different sort of much higher
10:43
current
10:46
connectors a makeer name on that
10:48
connector flot light not sure if that's
10:52
the connector or the lead
10:54
itself and obviously with the phosphor
10:56
and I'd imagine that phosphor may well
10:58
be tuned to get the maximum to the uh 5
11:01
cenm and actually this white one looks
11:04
like a St fairly standard product I just
11:06
found it in Mouse made by luminous
11:09
devices in fact actually I think all
11:11
these are based on various luminous
11:13
devices modules and they're you take
11:17
looks like they taking the nearest
11:18
wavelength and then just using these
11:19
filters to clean it up to get a precise
11:22
uh spectral line out of it so quite a
11:25
nice neat and um extreme
11:30
bright light source uh sure I've got any
11:33
particular use for it so I think this
11:35
might end up on
11:36
eBay but uh very pretty to look out and
11:40
without the uh risk of burning your eyes
11:43
out like you do with lasers so I thought
11:45
it would be interesting to try and
11:46
figure out the runtime of this things
11:48
like this we usually keep some sort
11:49
record of runtime cuz leads degrade over
11:51
time I couldn't get any software to work
11:52
through the USB face but then had a
11:54
thought probably going to be writing the
11:55
runtime periodically to the e s prom so
11:58
I just just scope up that and noticed it
12:00
was doing right every 5 minutes so I
12:02
just ran it for a while periodically
12:04
reading the E squ I just held the pick
12:05
in in reset and um put clip over to read
12:07
the square prom and found it was writing
12:10
one location per color every 5 minutes
12:12
so if one color was on it would write
12:14
that location every 5 minutes and just
12:16
increment it by one so after doing a few
12:18
tests with different colors of different
12:19
time periods it looked extremely
12:21
straightforward it's like a four bite
12:22
count for each color looking at the
12:24
original data that was in it all the
12:26
colors apart from Green were reading
12:28
zero and the green was reading four
12:30
indicating a total 20 minutes run time
12:32
ever if it was turned on run for a short
12:34
time then turned off that might not have
12:36
been counted but even so indicates this
12:37
thing wasn't used a great deal the whole
12:40
s process of doing a run can be several
12:42
hours but it'll only be doing probably
12:43
the Imaging at the end of that so you
12:46
wouldn't expect to be running for a long
12:47
time but say a single color for 20
12:50
minutes over its whole lifetime does
12:52
seem a little bit on the low side okay
12:55
let's look at the camera un fortunately
12:57
I managed to not record any sound when I
12:58
did this it's also a couple of months
13:00
ago so there's going to be a few details
13:02
that I've forgotten so I'm just going to
13:04
dub this over the original footage so um
13:07
take the lid off see this massive great
13:10
heat sink so this is a pel cool camera
13:12
we've got this blower fan producing a
13:14
fair amount of air flow through
13:16
it the connector here there's the ccds
13:19
mounted on the board on the
13:24
right this unplugs so we've got a bit of
13:27
power supply stuff on here
13:29
USB interface I think that's the Cyprus
13:32
microcontroller High speeded USB
13:34
interface there's a zyink spon fpga some
13:40
RAM and there's a couple of ATD
13:42
converters can't quite read what those
13:45
those are but anal
13:47
devices um little bit of bodgery around
13:51
here extra decoupling obviously they
13:53
have having some noise issues this is
13:55
around the ram chip quite a lot of extra
13:57
capacitors been added there
13:59
uh there's a couple of amplifiers prior
14:01
to the HD converter buffers or Andor
14:05
amplifiers taking the CCD
14:08
signal um bit more power spy stuff here
14:11
this is probably all to do with
14:12
generating the various CCD bias voltages
14:14
they uh need quite a lot of exotic
14:18
voltages next board down is just a
14:20
shield and an interconnect
14:24
boardly shielding the power supply stuff
14:26
from some the more sensitive an log
14:28
stuff
14:31
and this is the bottom board which is
14:32
just all power supply
14:34
stuff as you can see tons of capacitors
14:37
or Transformer in
14:42
there and this is the CCD which is a uh
14:47
very impressive thing this is a kf50 100
14:50
originally by true sense then codec
14:53
there ON
14:54
Semiconductor it's 50 megapixels uh the
14:58
only price I could find was this one
15:00
5,000 bucks and the architecture you can
15:03
see there actually two separate halves
15:04
which explains the Dual AZ converters
15:06
and two amplifiers it's literally split
15:08
down the middle and duplicated so it's
15:10
outputting two streams in parallel just
15:13
to keep the bandwidth sensible and it's
15:15
got this amazing um diffraction effects
15:18
it's got micro lenses over the pixel so
15:20
there's there's a bit more Optics going
15:22
on than on a normal
15:25
sensor few more bodges on the CCD board
15:28
including this wire which isn't really
15:29
tacked down very well which is a bit uh
15:32
bit of a mess quite a few bits around
15:34
this board where they've uh tacked
15:36
various bits on which is not super
15:38
impressive looks like CCD drivers on the
15:40
left with those 3 ohm um damping
15:43
resistors on the
15:47
output get a few more little bodges
15:50
around here some of
15:52
the and there's this separator the
15:54
silica gel to keep the moisture down but
15:56
there's this separator that actually
15:58
appears to be cut from piece of
15:59
antistatic
16:04
bag and this sort of thermal block on
16:06
top of this stack of three pel Cola
16:12
modules so as with any Stacks they get
16:16
um larger as they go back towards the
16:18
heat sink because each P's got to not
16:20
only take the heat from the previous but
16:21
also the waste heat which is quite
16:27
significant you see a little temperature
16:29
sensor here that copper block which
16:32
makes contact with the back of the
16:37
CCD and this's the back of the
16:40
pelas this then contacts the heat sink
16:44
on the uh rear there a few thermal pads
16:46
as well for some of the other power
16:47
components on this
16:51
PCB okay I've connected this uh camera
16:54
up I found some drivers on the disc that
16:56
seem to work under Windows 7 couldn't
16:58
get to install under Windows 11 though
17:01
um in the absence of any sort of lens or
17:03
being bothered to the proper amount I've
17:04
just put some f over it and put a little
17:06
pin in there to make a pinhole lens and
17:08
software gives a few options I'm not
17:11
entirely sure what all these are there's
17:12
obviously a clock frequency 22 MHz low
17:15
gain and with PFG no idea what that is
17:19
something something game programmable
17:20
Something game perhaps ver exposure
17:23
types I think focus is just like a
17:25
continuous grab until you tell it to
17:27
stop not entirely sure all these options
17:30
are obviously exposure time uh triggers
17:33
there ex external hardware trigger inut
17:35
you just trigger using a um thing on
17:37
screen so the resolution is 8176 by
17:40
6132 and you can actually bin those
17:42
where you combine multiple pixels to get
17:46
increased gain at the expense of lower
17:48
resolution down this is a 10sec exposure
17:51
obviously of the pin hole it's very uh
17:53
intensitive so we just stand still now
17:56
downloading it there's the uh exposure
17:59
so when it's
18:01
um there's a little status thing down
18:03
here so that tells you the um exposure
18:07
[Applause]
18:09
time it's this is just it
18:15
downloading um it is quite I'm seeing
18:18
quite a lot like smearing I think that I
18:20
don't know whether that's just due to
18:21
pixels overloading or something else I
18:24
mean yeah it's not it's not um out of
18:26
the question that there's something not
18:27
totally right about this camera
18:28
certainly was bodge wise on there um I
18:31
don't I'd imagine a camera like this
18:32
it's got a fairly narrow range of
18:34
intensities that it's happy with I'm not
18:36
going to spend a great deal of time on
18:38
this if you're interested in this camera
18:40
maybe for astronomy or something and
18:42
happy to sort of take the risk of it may
18:44
not be uh perfect I'll um I think I'll
18:47
stick this on eBay along with the
18:48
Illuminator I'll put a link down in the
18:50
description to the listing take your
18:52
chances to grab a bargain so for example
18:54
here we see this vertical streaking so
18:56
I'm not sure how normal that is this is
18:58
on fairly bright scene looking out the
19:02
window if I cut the exposure time down
19:04
on that it's now 1 second
19:07
exposure again most of the image
19:09
disappears again this is looks like it's
19:11
possibly over still overloading here go
19:14
that go down to say say quarter a
19:16
second so again I think there might be
19:19
some Auto gain control going on here um
19:21
this is with the PFG option let's try
19:23
turning that off and see what
19:25
happens so I'm not sure this is actually
19:27
more streaking or which just it's
19:29
cranked up the gain all the dis display
19:31
gray scale to show what um you know the
19:33
range of things that it's captured
19:36
there's one of one of 12 things in the
19:38
software there's um you can see of you
19:40
can't seem to read out the temperature
19:42
of the pelta cooler but you can set the
19:44
temperature and if you said it's a
19:46
different temperature you see the power
19:48
consumption jump up running the cooler
19:50
to get the temperature you requested but
19:52
I can't see anything anywhere that tells
19:54
you whether the cool is at the at the
19:56
temperature other than the power
19:57
consumption going down and there's no
19:59
temperature read out
20:03
here and just some yeah this is just
20:05
sort of very basic software I'm sure
20:07
there's like an API for more
20:09
sophisticated
20:10
applications but so if you know anything
20:12
more about these cameras please um stick
20:14
in the
20:15
comments um incidentally when I was
20:18
editing I didn't notice there was a bent
20:19
pin on the um CCD but I did fix that
20:22
before doing these tests and also
20:24
reactivated the um silica gel desicant
20:26
cuz I noticed it was uh I was getting
20:28
bit of condensation on the window but um
20:31
yeah so a couple of uh interesting but
20:34
maybe not particularly uh useful pieces
20:37
of Kit except for someone that's got a
20:38
very specific use so um I'll stick a
20:42
I'll stick these on eBay put a link in
20:44
the description and say hopefully
20:45
someone could actually make some uh good
20:47
use of these things
Example Output:
**Exploring the Fluidigm Polaris: A Detailed Look at its High-End Optics and Camera System**

* **0:00 High-End Optics:** The system utilizes heavy, high-quality lenses and mirrors for precise imaging, weighing around 4 kilos each.
* **0:49 Narrow Band Filters:** A filter wheel with five narrow band filters (488, 525, 570, 630, and 700 nm) ensures accurate fluorescence detection and rejection of excitation light. 
* **2:01 Customizable Illumination:** The Lumen Dynamics light source offers five individually controllable LED wavelengths (430, 475, 520, 575, 630 nm) with varying power outputs. The 575nm yellow LED is uniquely achieved using a white LED with filtering.
* **3:45 TTL Control:**  The light source is controlled via a simple TTL interface, enabling easy on/off switching for each LED color.
* **12:55 Sophisticated Camera:**  The system includes a 50-megapixel Kodak KAI-50100 CCD camera with a Peltier cooling system for reduced noise.
* **14:54 High-Speed Data Transfer:** The camera features dual analog-to-digital converters to manage the high data throughput of the 50-megapixel sensor, which is effectively two 25-megapixel sensors operating in parallel.
* **18:11 Possible Issues:** The video creator noted some potential issues with the camera, including image smearing. 
* **18:11 Limited Dynamic Range:** The camera's sensor has a limited dynamic range, making it potentially challenging to capture scenes with a wide range of brightness levels.
* **11:45 Low Runtime:** Internal data suggests the system has seen minimal usage, with only 20 minutes of recorded runtime for the green LED.
* **20:38 Availability on eBay:** Both the illuminator and camera are expected to be listed for sale on eBay.
Here is the real transcript. Please summarize it: 
00:00:00 the ne plus ultra for memorizing numbers Ooh,
00:00:06 time of making it easy, dumb-it-down?
00:00:11 Yes, I will, ne plus ultra.
00:00:14 for memorizing numbers.
00:00:19 It's actually a lot more powerful than that.
00:00:22 understand how to make a Magnetic PAO, or
00:00:29 why the PAO is there in the first place.
00:00:32 ways that you can take this person action
00:00:37 PAO, and how shall we put this?
00:00:43 system so that you're able to not only use
00:00:49 sentences, even the names of people.
00:00:56 PAO, in this video.
00:01:00 you are in the comments, get subscribed, if
00:01:05 you're new here, and let's get started.
00:01:06 Okay, so what is a PAO system?
00:01:09 time.
00:01:13 system.
00:01:18 down essentially into individual units that
00:01:24 can interact in memorable ways.
00:01:28 Take these numbers, for example, 21, 36, 90.
00:01:31 those numbers due to how the brain works,
00:01:37 but just for example.
00:01:39 divide the numbers into three sets of images,
00:01:45 pattern.
00:01:49 system, Jack Nicholson, for 21, throwing burning
00:01:55 matches for 36 at a bus for 90.
00:01:58 is throwing matches, the object is the bus.
00:02:03 after that, then it would start all over again.
00:02:09 next six, I would have a person, an action
00:02:14 and an object.
00:02:15 Then the next six, person, action and an object.
00:02:17 use in different ways, but I like to use the
00:02:24 major system.
00:02:25 the reasons why I prefer the major system
00:02:28 to it.
00:02:33 There's a great logic to it.
00:02:34 because the major system underlies this.
00:02:41 So how does that get to Jack Nicholson?
00:02:47 and he often played nut cases in movies.
00:02:53 So I have 21, one, two, and one for DRT.
00:02:57 In this case I chose T, you get 21.
00:03:01 specifically of the "Here's Johnny" scene
00:03:06 nuts, and he's going through the door with
00:03:10 an axe to get Wendy.
00:03:13 And it's just beautiful.
00:03:14 Now what about 36?
00:03:16 Well, that's a boxing match with Mike Tyson.
00:03:19 six is a shuh sound, or a sound like a soft
00:03:26 G or J and so match is what I get out of there.
00:03:30 particular formulation for these digits as
00:03:35 the object and every single one of these numbers
00:03:40 has a person and an action and an object.
00:03:43 you're just rotating between your selection.
00:03:48 So you might be saying, wait a second, not.
00:03:51 the object is the nut, it was because every
00:03:56 or an object.
00:04:01 you're just choosing it in that order.
00:04:07 for a very long time, but they're not necessarily
00:04:15 magnetic PAO that we'll get to.
00:04:21 afficianods here.
00:04:27 talk about.
00:04:29 where you want to remember a person action
00:04:34 object, it just is so much simpler.
00:04:38 it's the oldest available in evidence, circa
00:04:44 that.
00:04:48 detailed basis for transforming numbers into
00:04:55 words based on the words being based on consonants.
00:04:59 But what kinds of words?
00:05:00 Well, what kind of words are there?
00:05:02 so forth, but the most direct ones that are
00:05:09 actions, and objects.
00:05:14 out with great sophistication.
00:05:19 Bruno, and you see this in his book, De umbris
00:05:26 idearum, or on the shadows of the ideas.
00:05:29 chose to include Hebrew letters in his memory
00:05:36 him more possible sounds.
00:05:41 classified in the Gometria, not just as a
00:05:47 more images out of essentially new versions
00:05:54 of the same number.
00:05:55 one and the same thing with the Greek letters.
00:06:01 Anyway, it's really, really cool.
00:06:03 character sets, you could actually have a
00:06:07 Bestiary, which is what some of the medieval
00:06:14 images.
00:06:17 that back in her book, Memory Craft, the idea
00:06:22 of calling it the Bestiary.
00:06:24 matters.
00:06:27 so that it actually does work.
00:06:32 numbers into associations on the basis of
00:06:38 the number being linked to a consonant.
00:06:40 So I can rattle off the major very simply.
00:06:43 an N, 3 is an M, 4 is an R, 5 is a L, 6 is
00:06:49 a shah, jah, guh.
00:06:52 use hard G, I rarely do.
00:06:55 You could even use 7 as a Y.
00:06:57 an M upside down.
00:07:00 or P.
00:07:04 And it's just beautiful.
00:07:05 assignments and have them arranged with words.
00:07:12 like Peter Sutton, or it could be Gaad Saad,
00:07:24 an author.
00:07:26 like a bubble from soap, and then the action
00:07:33 could be being sad, something like that.
00:07:36 every 2-digit pair from 00-99.
00:07:41 things that you do.
00:07:43 Suess.
00:07:47 doesn't really matter.
00:07:51 figure out what your object's going to be,
00:07:55 you don't necessarily have to have all those
00:07:59 to have a Magnetic PAO, which is to try to
00:08:07 do.
00:08:13 CA system or a character action system.
00:08:20 have to think of your goal.
00:08:23 What is your goal?
00:08:25 What's going to work best?
00:08:27 Dominic System to work out who your figures
00:08:32 are going to be.
00:08:33 it's logical once you know the system.
00:08:37 think, well, what is the consonant pair?
00:08:42 that you used as the image, because the logic
00:08:48 only gives you so many words, right?
00:08:51 Ben system, and so forth.
00:08:55 of your own research and figure out going
00:08:59 to be best for you.
00:09:00 trap because at the end of the day you do
00:09:06 experimenting with multiple systems and the
00:09:10 that you use.
00:09:14 just for numbers.
00:09:19 that numbers are useful and that would be
00:09:23 like Mandarin.
00:09:28 so that's Tone 3and Tone 4.
00:09:35 in my case, I have a horse from the Piers
00:09:43 is an R, is added to that.
00:09:49 in the memory palace there, there's a place
00:09:56 that Zhǔnbèi 准备, or Zhǔn, it's just
00:10:03 Michael Bay is there, and that horse that
00:10:10 helps with instilling what the tones are supposed
00:10:15 to be.
00:10:16 tones.
00:10:22 in Latin, for example, Nihil minus est, Hominis
00:10:29 to be quam vivre.
00:10:34 at the same time, if we think, I can't remember
00:10:40 this word, whatever it is, Nihil, right?
00:10:44 of Neil Pert, the drummer from Rush, and he
00:10:51 can start to help me remember that word, right?
00:10:54 If I can't think of anything else for Neil.
00:10:56 In that case, I didn't use Neil Pert.
00:10:57 I used my friend Nick.
00:10:59 PAO built out properly and optimally, it's
00:11:05 is something I build out in even more detail
00:11:11 in my video Aristotle's Nuclear Alphabet.
00:11:13 So you may want to check that out.
00:11:15 PAO is to think about memory palace options.
00:11:26 So imagine this.
00:11:27 is 22.
00:11:32 a statue that is in front of that building.
00:11:37 on it.
00:11:40 because 2 is n and 2 is n, so 22 makes two
00:11:47 who played Mr.
00:11:50 Bean looks kind of funny.
00:11:52 a scene where he was dressed as a nun.
00:11:56 to go.
00:12:00 it if you don't have the 00-99 PAO
00:12:05 So how are you going to get started with this?
00:12:07 going to make it happen so that your success
00:12:11 is guaranteed.
00:12:13 out your commitment to doing it, then writing
00:12:17 don't know it already, learn the major, and
00:12:22 and then work out your possible images there.
00:12:28 for person action and object by all means
00:12:33 do it.
00:12:34 core word, I'm just thinking, hmm, what can
00:12:40 does the thing of fire?
00:12:45 Chuck Norris has a flamethrower.
00:12:50 he is doing the thing that the object is and
00:12:59 the action is and it's just there for me.
00:13:01 fire can extend across multiple images lighting
00:13:05 a bunch of them on fire.
00:13:07 to nothing, absolutely nothing, very, very
00:13:15 beautiful.
00:13:16 and I hope it helps empower you to understand
00:13:20 it.
00:13:24 set of words it's true, but I hope you've
00:13:29 in that sense that Aristotle talks about.
00:13:34 So thanks for your thumbs up.
00:13:35 Thanks for being subscribed.
00:13:36 these techniques can be and bi-directional,
00:13:42 to watch my video on Aristotle's Nuclear Alphabet

Copy Summary Copy Prompt

identifier: 1223

model: gemini-2.0-flash-exp| input-price: 0.1 output-price: 0.4 max-context-length: 128_000

host: 78.131.91.175

https://youtu.be/c4J5ZUzCxZY?si=j-JDZb6eIorul-J6

include_comments: None

include_timestamps: 1

include_glossary: None

output_language: en

cost: 0.5

*Mastering the Memory Palace Technique for Effective Studying*

*   *0:00 Waste of Time if Incorrect:* The Memory Palace technique is ineffective if not used correctly, often due to incomplete instruction.
*   *0:11 Ancient Origins:* The technique has ancient roots, with people carrying entire books in their minds.
*   *0:45 Maximize Results:* Subscribe and like to learn how to use the Memory Palace effectively for academic success.
*   *0:49 Lynn Kelly:* Good research has been done in Memory Code and Memory Craft.
*   *0:59 Teachers Throughout History:* Throughout history, the way to properly use Memory Palace has been the same.
*   *1:27 History:* When it comes to using Memory Palace technique for studying, the earliest place to look in history is Hugh of St. Victor.
*   *1:40 Using Memory Palace Correctly:* Benefit of using Memory Palace correctly is that it is a way of helping you place information in your long-term memory through a variety of active learning processes.
*   *2:57 Fluidity:* Makes it that you can minimize the amount of time that you have to spend on using the technique.
*   *3:59 What is the Memory Palace Technique:* Not just one technique, it's at least five techniques coming together as one seamless move.
*   *5:23 5 Techniques:* The Memory Palace system, alphabetical associations, numerical associations, symbol associations, and spaced repetition combine to maximize memory retention.
*   *6:43 Mental Imagery:* Does not have to be seen. This is one of the biggest keys to getting the Memory Palace to work flawlessly.
*   *7:10 5 Systems Importance:* The information enters your long-term memory and you can access it without having to think about the Memory Palace.
*   *8:00 Thousands of Student Drawings:* Students send in drawings of their memory palaces because they wish they learned this technique earlier.
*   *8:21 Critical:* Don't allow yourself to plan in the Memory Palace, you wind up building it as you go.
*   *8:30 Base on Remembrance:* Establish clear and distinctive locations in each Memory Palace.
*   *9:13 Reality* make it 100% based on memory so that you can not have to worry about visualizing it.
*   *10:01 Unnecessary:* Remove the unnecessary by having a true Memory Palace by maximizing the power of using distinctive locations exactly the way you remember them.
*   *10:44 Clear Journey:* You want a clear and concise journey where you start at a location and move in a linear fashion.
*   *11:35 Make Sure Info Matters:* Using it for the actual information that matters.
*   *11:54 Extract information onto cards:* Make a mental note and extract information onto cards; books typically have 10 chapters, 10 points in each chapter, and possibly 3 points depending on the book.
*   *12:55 Form Memories:* This process of weeding through notes will itself form memories.
*   *13:55 Rhomatic Effect:* Memorize those things that are the key points.
*   *15:31 Page Mini Memory Palace:* Use of pages as mini memory palaces.
*   *15:41 Number System:* Built out that you can watch in the POA system.
*   *16:04 The Book Becomes A Kind Of Memory Palace:* where each page is the equivalent of a wall.
*   *16:47 Example:* Page 71-79 is like a sermon.
*   *17:55 Mindset:* Book is not used if you are studying for an exam.
*   *18:39 Breathing Room:* You want the stations in your memory palaces to have some breathing room.
*   *19:36 Recall:* You're not going to have spatial room in which to do station skipping in recall rehearsal.
*   *20:07 Elaborative In Coding:* Memory scientists call this step elaborative in coding.
*   *20:35 Elaborating and Associating your Images:* Think about each station as needing to be what it is.
*   *20:58 Simple Example:* Use something already in memory.
*   *21:29 Construction of the Word:* Paying attention to the alphabetical construction of the word.
*   *22:43 Images are not about Images:* Logical sequence of stations throughout a space to link to highly multi-sensory images that are already in your memory.
*   *23:53 The Art Of Memory:* To use memory palaces that are based on memory to use images that are based on memory and to combine the two logically.
*   *24:20 Refine - the Cave Cogs Formula:* Instead of seeing Ant-Man as such, first get a kinesthetic feeling
*   *27:11 Train Yourself:* Get some wonderful index cards, write out the alphabet, and look at letters.
*   *30:00 Procedural Memory:* A superpower when you are using the Memory Palace for studying.
*   *30:30 Training:* You also train Cape Cogs by using anano dromia.
*   *31:36 Size:* Of Superman's muscles relative to ant-man's muscles.
*   *31:50 Practice:* Train in advance.
*   *33:32 Juggle Multiple Subjects:* Use the technique for a variety of subjects by making sure to have multiple memory palaces.
*   *33:52 Mental Dexterity:* Setup by having the memory palaces.
*   *33:55 Scarcity:* There's one for each letter of the alphabet and only scarcity-based thinking holds people back.
*   *34:45 Number System:* For memorizing dates.
*   *34:49 Popular System:* The major system.
*   *36:30 Make Your Systems In Advance:* Memory Palace, Alphabet, Number, and Symbol systems.
*   *36:30 Science and Formulas:* Make sure to never think of these as being difficult.
*   *37:29 Rehearsal is Core:* Recall Rehearsal is the core reason to use the Memory Palace Technique for studying in the first place.
*   *37:54 Strengthen:* To do it well, you will practice with a specific kind of retrieval that will strengthen your memory and Usher your target information into long-term memory.
*   *38:00 Equal Doses:* You want to apply equal doses of pracy effect and recency effect to each piece of information using the serial positioning effect.
*   *38:35 Revisit Information:* Revisit information by moving forward backward from the middle of the Memory Palace to the beginning and then from the middle to the end.
*   *38:38 Skip the Stations:* Each of these recall patterns will challenge you.
*   *39:11 Opportunity to think:* Thinking about what was wrong with my image in the Memory Palace.
*   *39:34 Extend a Memory Palace Should Never Be Needed:* Plus, you'll have a Memory Palace for every letter of the alphabet.
*   *40:21 Establish, Add, Compounds:* If you have memories established, you can add on details.
*   *41:15 The Beauty:* You will sometimes just remember it.
*   *41:48 Prevent These Issues:* The real key is to have as many memory palaces as possible to prevent these issues.
*   *42:20 There are Some Other Ways That You Can Play Around With This:* They really ultimately come down to Cave Cogs.
*   *42:27 Walls of Memory Palace:* Is just an additional amount of cognitive effort.
*   *42:51 Float:* Float the image in space and not have any special need for connection.
*   *43:35 Physical Space:* Lends itself to what I'm doing.
*   *44:00 Do You Have Connections:* This to the point of Ideal Nultra is to not have connections.
*   *44:09 How to Clean Out Memory Palace:* This really just seemed ultimately to me to be a waste of time relative to just having multiple memory palaces.
*   *44:45 Works for you:* Doing the art of memory.
*   *45:02 Individual Style:* Stick with it for at least 90 days, so your brain can formulate neuronal connections that will help you understand it.
*   *45:16 Foundation Before Adding:* Allowing that time to build a foundation.
*   *46:02 Ron White:* Used his method ever since.
*   *46:37 Ego Thing:* Not an ego thing.
*   *46:37 Neuroscientific Thing:* And it's well established in all kinds of science.
*   *47:39 Understand:* To allow yourself to absorb deeply is the principle in memory science of context-dependent memory.
*   *47:53 Hit that thumbs up:* Thanks for being here and liking.
*   *48:33YT:* Go to Magnetic Method-dot-com YT, I have four videos that take you deeper into creating well-formed memory palaces with student examples.
*   *48:43 Can’t Always Use This:* When you can, it's great to if you are going to have an exam you use that room or the surrounding campus as a Memory Palace because it's great for context.
*   *49:48 Boost of Recall:* The context will give you a boost of recall.
*   *50:02 Forest:* You will be able to cut down anything.


I used gemini-2.0-flash-exp| input-price: 0.1 output-price: 0.4 max-context-length: 128_000 on rocketrecap dot com to summarize the transcript.
Cost (if I didn't use the free tier): $0.50
Input tokens: 30888
Output tokens: 2157

Mastering the Memory Palace Technique for Effective Studying

• 0:00 Waste of Time if Incorrect: The Memory Palace technique is ineffective if not used correctly, often due to incomplete instruction.
• 0:11 Ancient Origins: The technique has ancient roots, with people carrying entire books in their minds.
• 0:45 Maximize Results: Subscribe and like to learn how to use the Memory Palace effectively for academic success.
• 0:49 Lynn Kelly: Good research has been done in Memory Code and Memory Craft.
• 0:59 Teachers Throughout History: Throughout history, the way to properly use Memory Palace has been the same.
• 1:27 History: When it comes to using Memory Palace technique for studying, the earliest place to look in history is Hugh of St. Victor.
• 1:40 Using Memory Palace Correctly: Benefit of using Memory Palace correctly is that it is a way of helping you place information in your long-term memory through a variety of active learning processes.
• 2:57 Fluidity: Makes it that you can minimize the amount of time that you have to spend on using the technique.
• 3:59 What is the Memory Palace Technique: Not just one technique, it's at least five techniques coming together as one seamless move.
• 5:23 5 Techniques: The Memory Palace system, alphabetical associations, numerical associations, symbol associations, and spaced repetition combine to maximize memory retention.
• 6:43 Mental Imagery: Does not have to be seen. This is one of the biggest keys to getting the Memory Palace to work flawlessly.
• 7:10 5 Systems Importance: The information enters your long-term memory and you can access it without having to think about the Memory Palace.
• 8:00 Thousands of Student Drawings: Students send in drawings of their memory palaces because they wish they learned this technique earlier.
• 8:21 Critical: Don't allow yourself to plan in the Memory Palace, you wind up building it as you go.
• 8:30 Base on Remembrance: Establish clear and distinctive locations in each Memory Palace.
• 9:13 Reality make it 100% based on memory so that you can not have to worry about visualizing it.
• 10:01 Unnecessary: Remove the unnecessary by having a true Memory Palace by maximizing the power of using distinctive locations exactly the way you remember them.
• 10:44 Clear Journey: You want a clear and concise journey where you start at a location and move in a linear fashion.
• 11:35 Make Sure Info Matters: Using it for the actual information that matters.
• 11:54 Extract information onto cards: Make a mental note and extract information onto cards; books typically have 10 chapters, 10 points in each chapter, and possibly 3 points depending on the book.
• 12:55 Form Memories: This process of weeding through notes will itself form memories.
• 13:55 Rhomatic Effect: Memorize those things that are the key points.
• 15:31 Page Mini Memory Palace: Use of pages as mini memory palaces.
• 15:41 Number System: Built out that you can watch in the POA system.
• 16:04 The Book Becomes A Kind Of Memory Palace: where each page is the equivalent of a wall.
• 16:47 Example: Page 71-79 is like a sermon.
• 17:55 Mindset: Book is not used if you are studying for an exam.
• 18:39 Breathing Room: You want the stations in your memory palaces to have some breathing room.
• 19:36 Recall: You're not going to have spatial room in which to do station skipping in recall rehearsal.
• 20:07 Elaborative In Coding: Memory scientists call this step elaborative in coding.
• 20:35 Elaborating and Associating your Images: Think about each station as needing to be what it is.
• 20:58 Simple Example: Use something already in memory.
• 21:29 Construction of the Word: Paying attention to the alphabetical construction of the word.
• 22:43 Images are not about Images: Logical sequence of stations throughout a space to link to highly multi-sensory images that are already in your memory.
• 23:53 The Art Of Memory: To use memory palaces that are based on memory to use images that are based on memory and to combine the two logically.
• 24:20 Refine - the Cave Cogs Formula: Instead of seeing Ant-Man as such, first get a kinesthetic feeling
• 27:11 Train Yourself: Get some wonderful index cards, write out the alphabet, and look at letters.
• 30:00 Procedural Memory: A superpower when you are using the Memory Palace for studying.
• 30:30 Training: You also train Cape Cogs by using anano dromia.
• 31:36 Size: Of Superman's muscles relative to ant-man's muscles.
• 31:50 Practice: Train in advance.
• 33:32 Juggle Multiple Subjects: Use the technique for a variety of subjects by making sure to have multiple memory palaces.
• 33:52 Mental Dexterity: Setup by having the memory palaces.
• 33:55 Scarcity: There's one for each letter of the alphabet and only scarcity-based thinking holds people back.
• 34:45 Number System: For memorizing dates.
• 34:49 Popular System: The major system.
• 36:30 Make Your Systems In Advance: Memory Palace, Alphabet, Number, and Symbol systems.
• 36:30 Science and Formulas: Make sure to never think of these as being difficult.
• 37:29 Rehearsal is Core: Recall Rehearsal is the core reason to use the Memory Palace Technique for studying in the first place.
• 37:54 Strengthen: To do it well, you will practice with a specific kind of retrieval that will strengthen your memory and Usher your target information into long-term memory.
• 38:00 Equal Doses: You want to apply equal doses of pracy effect and recency effect to each piece of information using the serial positioning effect.
• 38:35 Revisit Information: Revisit information by moving forward backward from the middle of the Memory Palace to the beginning and then from the middle to the end.
• 38:38 Skip the Stations: Each of these recall patterns will challenge you.
• 39:11 Opportunity to think: Thinking about what was wrong with my image in the Memory Palace.
• 39:34 Extend a Memory Palace Should Never Be Needed: Plus, you'll have a Memory Palace for every letter of the alphabet.
• 40:21 Establish, Add, Compounds: If you have memories established, you can add on details.
• 41:15 The Beauty: You will sometimes just remember it.
• 41:48 Prevent These Issues: The real key is to have as many memory palaces as possible to prevent these issues.
• 42:20 There are Some Other Ways That You Can Play Around With This: They really ultimately come down to Cave Cogs.
• 42:27 Walls of Memory Palace: Is just an additional amount of cognitive effort.
• 42:51 Float: Float the image in space and not have any special need for connection.
• 43:35 Physical Space: Lends itself to what I'm doing.
• 44:00 Do You Have Connections: This to the point of Ideal Nultra is to not have connections.
• 44:09 How to Clean Out Memory Palace: This really just seemed ultimately to me to be a waste of time relative to just having multiple memory palaces.
• 44:45 Works for you: Doing the art of memory.
• 45:02 Individual Style: Stick with it for at least 90 days, so your brain can formulate neuronal connections that will help you understand it.
• 45:16 Foundation Before Adding: Allowing that time to build a foundation.
• 46:02 Ron White: Used his method ever since.
• 46:37 Ego Thing: Not an ego thing.
• 46:37 Neuroscientific Thing: And it's well established in all kinds of science.
• 47:39 Understand: To allow yourself to absorb deeply is the principle in memory science of context-dependent memory.
• 47:53 Hit that thumbs up: Thanks for being here and liking.
• 48:33YT: Go to Magnetic Method.com YT, I have four videos that take you deeper into creating well-formed memory palaces with student examples.
• 48:43 Can’t Always Use This: When you can, it's great to if you are going to have an exam you use that room or the surrounding campus as a Memory Palace because it's great for context.
• 49:48 Boost of Recall: The context will give you a boost of recall.
• 50:02 Forest: You will be able to cut down anything.

Below, I will provide input for an example video (comprising of title, description, and transcript, in this order) and the corresponding summary I expect. Afterward, I will provide a new transcript that I want you to summarize in the same format. 

**Please summarize the transcript in a self-contained bullet list format.** Include starting timestamps, important details and key takeaways. 

Example Input: 
Fluidigm Polaris Part 2- illuminator and camera
mikeselectricstuff
131K subscribers
Subscribed
369
Share
Download
Clip
Save
5,857 views Aug 26, 2024
Fluidigm Polaris part 1 : • Fluidigm Polaris (Part 1) - Biotech g...
Ebay listings: https://www.ebay.co.uk/usr/mikeselect...
Merch https://mikeselectricstuff.creator-sp...
Transcript
Follow along using the transcript.
Show transcript
mikeselectricstuff
131K subscribers
Videos
About
Support on Patreon
40 Comments
@robertwatsonbath
6 hours ago
Thanks Mike. Ooof! - with the level of bodgery going on around 15:48 I think shame would have made me do a board re spin, out of my own pocket if I had to.
1
Reply
@Muonium1
9 hours ago
The green LED looks different from the others and uses phosphor conversion because of the "green gap" problem where green InGaN emitters suffer efficiency droop at high currents. Phosphide based emitters don't start becoming efficient until around 600nm so also can't be used for high power green emitters. See the paper and plot by Matthias Auf der Maur in his 2015 paper on alloy fluctuations in InGaN as the cause of reduced external quantum efficiency at longer (green) wavelengths.
4
Reply
1 reply
@tafsirnahian669
10 hours ago (edited)
Can this be used as an astrophotography camera?
Reply
mikeselectricstuff
·
1 reply
@mikeselectricstuff
6 hours ago
Yes, but may need a shutter to avoid light during readout
Reply
@2010craggy
11 hours ago
Narrowband filters we use in Astronomy (Astrophotography) are sided- they work best passing light in one direction so I guess the arrows on the filter frames indicate which way round to install them in the filter wheel.
1
Reply
@vitukz
12 hours ago
A mate with Channel @extractions&ire could use it
2
Reply
@RobertGallop
19 hours ago
That LED module says it can go up to 28 amps!!! 21 amps for 100%. You should see what it does at 20 amps!
Reply
@Prophes0r
19 hours ago
I had an "Oh SHIT!" moment when I realized that the weird trapezoidal shape of that light guide was for keystone correction of the light source.
Very clever.
6
Reply
@OneBiOzZ
20 hours ago
given the cost of the CCD you think they could have run another PCB for it
9
Reply
@tekvax01
21 hours ago
$20 thousand dollars per minute of run time!
1
Reply
@tekvax01
22 hours ago
"We spared no expense!" John Hammond Jurassic Park.
*(that's why this thing costs the same as a 50-seat Greyhound Bus coach!)
Reply
@florianf4257
22 hours ago
The smearing on the image could be due to the fact that you don't use a shutter, so you see brighter stripes under bright areas of the image as you still iluminate these pixels while the sensor data ist shifted out towards the top. I experienced this effect back at university with a LN-Cooled CCD for Spectroscopy. The stripes disapeared as soon as you used the shutter instead of disabling it in the open position (but fokussing at 100ms integration time and continuous readout with a focal plane shutter isn't much fun).
12
Reply
mikeselectricstuff
·
1 reply
@mikeselectricstuff
12 hours ago
I didn't think of that, but makes sense
2
Reply
@douro20
22 hours ago (edited)
The red LED reminds me of one from Roithner Lasertechnik. I have a Symbol 2D scanner which uses two very bright LEDs from that company, one red and one red-orange. The red-orange is behind a lens which focuses it into an extremely narrow beam.
1
Reply
@RicoElectrico
23 hours ago
PFG is Pulse Flush Gate according to the datasheet.
Reply
@dcallan812
23 hours ago
Very interesting. 2x
Reply
@littleboot_
1 day ago
Cool interesting device
Reply
@dav1dbone
1 day ago
I've stripped large projectors, looks similar, wonder if some of those castings are a magnesium alloy?
Reply
@kevywevvy8833
1 day ago
ironic that some of those Phlatlight modules are used in some of the cheapest disco lights.
1
Reply
1 reply
@bill6255
1 day ago
Great vid - gets right into subject in title, its packed with information, wraps up quickly. Should get a YT award! imho
3
Reply
@JAKOB1977
1 day ago (edited)
The whole sensor module incl. a 5 grand 50mpix sensor for 49 £.. highest bid atm
Though also a limited CCD sensor, but for the right buyer its a steal at these relative low sums.
Architecture Full Frame CCD (Square Pixels)
Total Number of Pixels 8304 (H) × 6220 (V) = 51.6 Mp
Number of Effective Pixels 8208 (H) × 6164 (V) = 50.5 Mp
Number of Active Pixels 8176 (H) × 6132 (V) = 50.1 Mp
Pixel Size 6.0 m (H) × 6.0 m (V)
Active Image Size 49.1 mm (H) × 36.8 mm (V)
61.3 mm (Diagonal),
645 1.1x Optical Format
Aspect Ratio 4:3
Horizontal Outputs 4
Saturation Signal 40.3 ke−
Output Sensitivity 31 V/e−
Quantum Efficiency
KAF−50100−CAA
KAF−50100−AAA
KAF−50100−ABA (with Lens)
22%, 22%, 16% (Peak R, G, B)
25%
62%
Read Noise (f = 18 MHz) 12.5 e−
Dark Signal (T = 60°C) 42 pA/cm2
Dark Current Doubling Temperature 5.7°C
Dynamic Range (f = 18 MHz) 70.2 dB
Estimated Linear Dynamic Range
(f = 18 MHz)
69.3 dB
Charge Transfer Efficiency
Horizontal
Vertical
0.999995
0.999999
Blooming Protection
(4 ms Exposure Time)
800X Saturation Exposure
Maximum Date Rate 18 MHz
Package Ceramic PGA
Cover Glass MAR Coated, 2 Sides or
Clear Glass
Features
• TRUESENSE Transparent Gate Electrode
for High Sensitivity
• Ultra-High Resolution
• Board Dynamic Range
• Low Noise Architecture
• Large Active Imaging Area
Applications
• Digitization
• Mapping/Aerial
• Photography
• Scientific
Thx for the tear down Mike, always a joy
Reply
@martinalooksatthings
1 day ago
15:49 that is some great bodging on of caps, they really didn't want to respin that PCB huh
8
Reply
@RhythmGamer
1 day ago
Was depressed today and then a new mike video dropped and now I’m genuinely happy to get my tear down fix
1
Reply
@dine9093
1 day ago (edited)
Did you transfrom into Mr Blobby for a moment there?
2
Reply
@NickNorton
1 day ago
Thanks Mike. Your videos are always interesting.
5
Reply
@KeritechElectronics
1 day ago
Heavy optics indeed... Spare no expense, cost no object. Splendid build quality. The CCD is a thing of beauty!
1
Reply
@YSoreil
1 day ago
The pricing on that sensor is about right, I looked in to these many years ago when they were still in production since it's the only large sensor you could actually buy. Really cool to see one in the wild.
2
Reply
@snik2pl
1 day ago
That leds look like from led projector
Reply
@vincei4252
1 day ago
TDI = Time Domain Integration ?
1
Reply
@wolpumba4099
1 day ago (edited)
Maybe the camera should not be illuminated during readout.
From the datasheet of the sensor (Onsemi): saturation 40300 electrons, read noise 12.5 electrons per pixel @ 18MHz (quite bad). quantum efficiency 62% (if it has micro lenses), frame rate 1 Hz. lateral overflow drain to prevent blooming protects against 800x (factor increases linearly with exposure time) saturation exposure (32e6 electrons per pixel at 4ms exposure time), microlens has +/- 20 degree acceptance angle
i guess it would be good for astrophotography
4
Reply
@txm100
1 day ago (edited)
Babe wake up a new mikeselectricstuff has dropped!
9
Reply
@vincei4252
1 day ago
That looks like a finger-lakes filter wheel, however, for astronomy they'd never use such a large stepper.
1
Reply
@MRooodddvvv
1 day ago
yaaaaay ! more overcomplicated optical stuff !
4
Reply
1 reply
@NoPegs
1 day ago
He lives!
11
Reply
1 reply
Transcript
0:00
so I've stripped all the bits of the
0:01
optical system so basically we've got
0:03
the uh the camera
0:05
itself which is mounted on this uh very
0:09
complex
0:10
adjustment thing which obviously to set
0:13
you the various tilt and uh alignment
0:15
stuff then there's two of these massive
0:18
lenses I've taken one of these apart I
0:20
think there's something like about eight
0:22
or nine Optical elements in here these
0:25
don't seem to do a great deal in terms
0:26
of electr magnification they're obiously
0:28
just about getting the image to where it
0:29
uh where it needs to be just so that
0:33
goes like that then this Optical block I
0:36
originally thought this was made of some
0:37
s crazy heavy material but it's just
0:39
really the sum of all these Optical bits
0:41
are just ridiculously heavy those lenses
0:43
are about 4 kilos each and then there's
0:45
this very heavy very solid um piece that
0:47
goes in the middle and this is so this
0:49
is the filter wheel assembly with a
0:51
hilariously oversized steper
0:53
motor driving this wheel with these very
0:57
large narrow band filters so we've got
1:00
various different shades of uh
1:03
filters there five Al together that
1:06
one's actually just showing up a silver
1:07
that's actually a a red but fairly low
1:10
transmission orangey red blue green
1:15
there's an excess cover on this side so
1:16
the filters can be accessed and changed
1:19
without taking anything else apart even
1:21
this is like ridiculous it's like solid
1:23
aluminium this is just basically a cover
1:25
the actual wavelengths of these are um
1:27
488 525 570 630 and 700 NM not sure what
1:32
the suffix on that perhaps that's the uh
1:34
the width of the spectral line say these
1:37
are very narrow band filters most of
1:39
them are you very little light through
1:41
so it's still very tight narrow band to
1:43
match the um fluoresence of the dies
1:45
they're using in the biochemical process
1:48
and obviously to reject the light that's
1:49
being fired at it from that Illuminator
1:51
box and then there's a there's a second
1:53
one of these lenses then the actual sort
1:55
of samples below that so uh very serious
1:58
amount of very uh chunky heavy Optics
2:01
okay let's take a look at this light
2:02
source made by company Lumen Dynamics
2:04
who are now part of
2:06
excelitas self-contained unit power
2:08
connector USB and this which one of the
2:11
Cable Bundle said was a TTL interface
2:14
USB wasn't used in uh the fluid
2:17
application output here and I think this
2:19
is an input for um light feedback I
2:21
don't if it's regulated or just a measur
2:23
measurement facility and the uh fiber
2:27
assembly
2:29
Square Inlet there and then there's two
2:32
outputs which have uh lens assemblies
2:35
and this small one which goes back into
2:37
that small Port just Loops out of here
2:40
straight back in So on this side we've
2:42
got the electronics which look pretty
2:44
straightforward we've got a bit of power
2:45
supply stuff over here and we've got
2:48
separate drivers for each wavelength now
2:50
interesting this is clearly been very
2:52
specifically made for this application
2:54
you I was half expecting like say some
2:56
generic drivers that could be used for a
2:58
number of different things but actually
3:00
literally specified the exact wavelength
3:02
on the PCB there is provision here for
3:04
385 NM which isn't populated but this is
3:07
clearly been designed very specifically
3:09
so these four drivers look the same but
3:10
then there's two higher power ones for
3:12
575 and
3:14
520 a slightly bigger heat sink on this
3:16
575 section there a p 24 which is
3:20
providing USB interface USB isolator the
3:23
USB interface just presents as a comport
3:26
I did have a quick look but I didn't
3:27
actually get anything sensible um I did
3:29
dump the Pi code out and there's a few
3:31
you a few sort of commands that you
3:32
could see in text but I didn't actually
3:34
manage to get it working properly I
3:36
found some software for related version
3:38
but it didn't seem to want to talk to it
3:39
but um I say that wasn't used for the
3:41
original application it might be quite
3:42
interesting to get try and get the Run
3:44
hours count out of it and the TTL
3:46
interface looks fairly straightforward
3:48
we've got positions for six opto
3:50
isolators but only five five are
3:52
installed so that corresponds with the
3:54
unused thing so I think this hopefully
3:56
should be as simple as just providing a
3:57
ttrl signal for each color to uh enable
4:00
it a big heat sink here which is there I
4:03
think there's like a big S of metal
4:04
plate through the middle of this that
4:05
all the leads are mounted on the other
4:07
side so this is heat sinking it with a
4:09
air flow from a uh just a fan in here
4:13
obviously don't have the air flow
4:14
anywhere near the Optics so conduction
4:17
cool through to this plate that's then
4:18
uh air cooled got some pots which are
4:21
presumably power
4:22
adjustments okay let's take a look at
4:24
the other side which is uh much more
4:27
interesting see we've got some uh very
4:31
uh neatly Twisted cable assemblies there
4:35
a bunch of leads so we've got one here
4:37
475 up here 430 NM 630 575 and 520
4:44
filters and dcro mirrors a quick way to
4:48
see what's white is if we just shine
4:49
some white light through
4:51
here not sure how it is is to see on the
4:54
camera but shining white light we do
4:55
actually get a bit of red a bit of blue
4:57
some yellow here so the obstacle path
5:00
575 it goes sort of here bounces off
5:03
this mirror and goes out the 520 goes
5:07
sort of down here across here and up
5:09
there 630 goes basically straight
5:13
through
5:15
430 goes across there down there along
5:17
there and the 475 goes down here and
5:20
left this is the light sensing thing
5:22
think here there's just a um I think
5:24
there a photo diode or other sensor
5:26
haven't actually taken that off and
5:28
everything's fixed down to this chunk of
5:31
aluminium which acts as the heat
5:32
spreader that then conducts the heat to
5:33
the back side for the heat
5:35
sink and the actual lead packages all
5:38
look fairly similar except for this one
5:41
on the 575 which looks quite a bit more
5:44
substantial big spay
5:46
Terminals and the interface for this
5:48
turned out to be extremely simple it's
5:50
literally a 5V TTL level to enable each
5:54
color doesn't seem to be any tensity
5:56
control but there are some additional
5:58
pins on that connector that weren't used
5:59
in the through time thing so maybe
6:01
there's some extra lines that control
6:02
that I couldn't find any data on this uh
6:05
unit and the um their current product
6:07
range is quite significantly different
6:09
so we've got the uh blue these
6:13
might may well be saturating the camera
6:16
so they might look a bit weird so that's
6:17
the 430
6:18
blue the 575
6:24
yellow uh
6:26
475 light blue
6:29
the uh 520
6:31
green and the uh 630 red now one
6:36
interesting thing I noticed for the
6:39
575 it's actually it's actually using a
6:42
white lead and then filtering it rather
6:44
than using all the other ones are using
6:46
leads which are the fundamental colors
6:47
but uh this is actually doing white and
6:50
it's a combination of this filter and
6:52
the dichroic mirrors that are turning to
6:55
Yellow if we take the filter out and a
6:57
lot of the a lot of the um blue content
7:00
is going this way the red is going
7:02
straight through these two mirrors so
7:05
this is clearly not reflecting much of
7:08
that so we end up with the yellow coming
7:10
out of uh out of there which is a fairly
7:14
light yellow color which you don't
7:16
really see from high intensity leads so
7:19
that's clearly why they've used the
7:20
white to uh do this power consumption of
7:23
the white is pretty high so going up to
7:25
about 2 and 1 half amps on that color
7:27
whereas most of the other colors are
7:28
only drawing half an amp or so at 24
7:30
volts the uh the green is up to about
7:32
1.2 but say this thing is uh much
7:35
brighter and if you actually run all the
7:38
colors at the same time you get a fairly
7:41
reasonable um looking white coming out
7:43
of it and one thing you might just be
7:45
out to notice is there is some sort
7:46
color banding around here that's not
7:49
getting uh everything s completely
7:51
concentric and I think that's where this
7:53
fiber optic thing comes
7:58
in I'll
8:00
get a couple of Fairly accurately shaped
8:04
very sort of uniform color and looking
8:06
at What's um inside here we've basically
8:09
just got this Square Rod so this is
8:12
clearly yeah the lights just bouncing
8:13
off all the all the various sides to um
8:16
get a nice uniform illumination uh this
8:19
back bit looks like it's all potted so
8:21
nothing I really do to get in there I
8:24
think this is fiber so I have come
8:26
across um cables like this which are
8:27
liquid fill but just looking through the
8:30
end of this it's probably a bit hard to
8:31
see it does look like there fiber ends
8:34
going going on there and so there's this
8:36
feedback thing which is just obviously
8:39
compensating for the any light losses
8:41
through here to get an accurate
8:43
representation of uh the light that's
8:45
been launched out of these two
8:47
fibers and you see uh
8:49
these have got this sort of trapezium
8:54
shape light guides again it's like a
8:56
sort of acrylic or glass light guide
9:00
guess projected just to make the right
9:03
rectangular
9:04
shape and look at this Center assembly
9:07
um the light output doesn't uh change
9:10
whether you feed this in or not so it's
9:11
clear not doing any internal Clos Loop
9:14
control obviously there may well be some
9:16
facility for it to do that but it's not
9:17
being used in this
9:19
application and so this output just
9:21
produces a voltage on the uh outle
9:24
connector proportional to the amount of
9:26
light that's present so there's a little
9:28
diffuser in the back there
9:30
and then there's just some kind of uh
9:33
Optical sensor looks like a
9:35
chip looking at the lead it's a very
9:37
small package on the PCB with this lens
9:40
assembly over the top and these look
9:43
like they're actually on a copper
9:44
Metalized PCB for maximum thermal
9:47
performance and yeah it's a very small
9:49
package looks like it's a ceramic
9:51
package and there's a thermister there
9:53
for temperature monitoring this is the
9:56
475 blue one this is the 520 need to
9:59
Green which is uh rather different OB
10:02
it's a much bigger D with lots of bond
10:04
wise but also this looks like it's using
10:05
a phosphor if I shine a blue light at it
10:08
lights up green so this is actually a
10:10
phosphor conversion green lead which
10:12
I've I've come across before they want
10:15
that specific wavelength so they may be
10:17
easier to tune a phosphor than tune the
10:20
um semiconductor material to get the uh
10:23
right right wavelength from the lead
10:24
directly uh red 630 similar size to the
10:28
blue one or does seem to have a uh a
10:31
lens on top of it there is a sort of red
10:33
coloring to
10:35
the die but that doesn't appear to be
10:38
fluorescent as far as I can
10:39
tell and the white one again a little
10:41
bit different sort of much higher
10:43
current
10:46
connectors a makeer name on that
10:48
connector flot light not sure if that's
10:52
the connector or the lead
10:54
itself and obviously with the phosphor
10:56
and I'd imagine that phosphor may well
10:58
be tuned to get the maximum to the uh 5
11:01
cenm and actually this white one looks
11:04
like a St fairly standard product I just
11:06
found it in Mouse made by luminous
11:09
devices in fact actually I think all
11:11
these are based on various luminous
11:13
devices modules and they're you take
11:17
looks like they taking the nearest
11:18
wavelength and then just using these
11:19
filters to clean it up to get a precise
11:22
uh spectral line out of it so quite a
11:25
nice neat and um extreme
11:30
bright light source uh sure I've got any
11:33
particular use for it so I think this
11:35
might end up on
11:36
eBay but uh very pretty to look out and
11:40
without the uh risk of burning your eyes
11:43
out like you do with lasers so I thought
11:45
it would be interesting to try and
11:46
figure out the runtime of this things
11:48
like this we usually keep some sort
11:49
record of runtime cuz leads degrade over
11:51
time I couldn't get any software to work
11:52
through the USB face but then had a
11:54
thought probably going to be writing the
11:55
runtime periodically to the e s prom so
11:58
I just just scope up that and noticed it
12:00
was doing right every 5 minutes so I
12:02
just ran it for a while periodically
12:04
reading the E squ I just held the pick
12:05
in in reset and um put clip over to read
12:07
the square prom and found it was writing
12:10
one location per color every 5 minutes
12:12
so if one color was on it would write
12:14
that location every 5 minutes and just
12:16
increment it by one so after doing a few
12:18
tests with different colors of different
12:19
time periods it looked extremely
12:21
straightforward it's like a four bite
12:22
count for each color looking at the
12:24
original data that was in it all the
12:26
colors apart from Green were reading
12:28
zero and the green was reading four
12:30
indicating a total 20 minutes run time
12:32
ever if it was turned on run for a short
12:34
time then turned off that might not have
12:36
been counted but even so indicates this
12:37
thing wasn't used a great deal the whole
12:40
s process of doing a run can be several
12:42
hours but it'll only be doing probably
12:43
the Imaging at the end of that so you
12:46
wouldn't expect to be running for a long
12:47
time but say a single color for 20
12:50
minutes over its whole lifetime does
12:52
seem a little bit on the low side okay
12:55
let's look at the camera un fortunately
12:57
I managed to not record any sound when I
12:58
did this it's also a couple of months
13:00
ago so there's going to be a few details
13:02
that I've forgotten so I'm just going to
13:04
dub this over the original footage so um
13:07
take the lid off see this massive great
13:10
heat sink so this is a pel cool camera
13:12
we've got this blower fan producing a
13:14
fair amount of air flow through
13:16
it the connector here there's the ccds
13:19
mounted on the board on the
13:24
right this unplugs so we've got a bit of
13:27
power supply stuff on here
13:29
USB interface I think that's the Cyprus
13:32
microcontroller High speeded USB
13:34
interface there's a zyink spon fpga some
13:40
RAM and there's a couple of ATD
13:42
converters can't quite read what those
13:45
those are but anal
13:47
devices um little bit of bodgery around
13:51
here extra decoupling obviously they
13:53
have having some noise issues this is
13:55
around the ram chip quite a lot of extra
13:57
capacitors been added there
13:59
uh there's a couple of amplifiers prior
14:01
to the HD converter buffers or Andor
14:05
amplifiers taking the CCD
14:08
signal um bit more power spy stuff here
14:11
this is probably all to do with
14:12
generating the various CCD bias voltages
14:14
they uh need quite a lot of exotic
14:18
voltages next board down is just a
14:20
shield and an interconnect
14:24
boardly shielding the power supply stuff
14:26
from some the more sensitive an log
14:28
stuff
14:31
and this is the bottom board which is
14:32
just all power supply
14:34
stuff as you can see tons of capacitors
14:37
or Transformer in
14:42
there and this is the CCD which is a uh
14:47
very impressive thing this is a kf50 100
14:50
originally by true sense then codec
14:53
there ON
14:54
Semiconductor it's 50 megapixels uh the
14:58
only price I could find was this one
15:00
5,000 bucks and the architecture you can
15:03
see there actually two separate halves
15:04
which explains the Dual AZ converters
15:06
and two amplifiers it's literally split
15:08
down the middle and duplicated so it's
15:10
outputting two streams in parallel just
15:13
to keep the bandwidth sensible and it's
15:15
got this amazing um diffraction effects
15:18
it's got micro lenses over the pixel so
15:20
there's there's a bit more Optics going
15:22
on than on a normal
15:25
sensor few more bodges on the CCD board
15:28
including this wire which isn't really
15:29
tacked down very well which is a bit uh
15:32
bit of a mess quite a few bits around
15:34
this board where they've uh tacked
15:36
various bits on which is not super
15:38
impressive looks like CCD drivers on the
15:40
left with those 3 ohm um damping
15:43
resistors on the
15:47
output get a few more little bodges
15:50
around here some of
15:52
the and there's this separator the
15:54
silica gel to keep the moisture down but
15:56
there's this separator that actually
15:58
appears to be cut from piece of
15:59
antistatic
16:04
bag and this sort of thermal block on
16:06
top of this stack of three pel Cola
16:12
modules so as with any Stacks they get
16:16
um larger as they go back towards the
16:18
heat sink because each P's got to not
16:20
only take the heat from the previous but
16:21
also the waste heat which is quite
16:27
significant you see a little temperature
16:29
sensor here that copper block which
16:32
makes contact with the back of the
16:37
CCD and this's the back of the
16:40
pelas this then contacts the heat sink
16:44
on the uh rear there a few thermal pads
16:46
as well for some of the other power
16:47
components on this
16:51
PCB okay I've connected this uh camera
16:54
up I found some drivers on the disc that
16:56
seem to work under Windows 7 couldn't
16:58
get to install under Windows 11 though
17:01
um in the absence of any sort of lens or
17:03
being bothered to the proper amount I've
17:04
just put some f over it and put a little
17:06
pin in there to make a pinhole lens and
17:08
software gives a few options I'm not
17:11
entirely sure what all these are there's
17:12
obviously a clock frequency 22 MHz low
17:15
gain and with PFG no idea what that is
17:19
something something game programmable
17:20
Something game perhaps ver exposure
17:23
types I think focus is just like a
17:25
continuous grab until you tell it to
17:27
stop not entirely sure all these options
17:30
are obviously exposure time uh triggers
17:33
there ex external hardware trigger inut
17:35
you just trigger using a um thing on
17:37
screen so the resolution is 8176 by
17:40
6132 and you can actually bin those
17:42
where you combine multiple pixels to get
17:46
increased gain at the expense of lower
17:48
resolution down this is a 10sec exposure
17:51
obviously of the pin hole it's very uh
17:53
intensitive so we just stand still now
17:56
downloading it there's the uh exposure
17:59
so when it's
18:01
um there's a little status thing down
18:03
here so that tells you the um exposure
18:07
[Applause]
18:09
time it's this is just it
18:15
downloading um it is quite I'm seeing
18:18
quite a lot like smearing I think that I
18:20
don't know whether that's just due to
18:21
pixels overloading or something else I
18:24
mean yeah it's not it's not um out of
18:26
the question that there's something not
18:27
totally right about this camera
18:28
certainly was bodge wise on there um I
18:31
don't I'd imagine a camera like this
18:32
it's got a fairly narrow range of
18:34
intensities that it's happy with I'm not
18:36
going to spend a great deal of time on
18:38
this if you're interested in this camera
18:40
maybe for astronomy or something and
18:42
happy to sort of take the risk of it may
18:44
not be uh perfect I'll um I think I'll
18:47
stick this on eBay along with the
18:48
Illuminator I'll put a link down in the
18:50
description to the listing take your
18:52
chances to grab a bargain so for example
18:54
here we see this vertical streaking so
18:56
I'm not sure how normal that is this is
18:58
on fairly bright scene looking out the
19:02
window if I cut the exposure time down
19:04
on that it's now 1 second
19:07
exposure again most of the image
19:09
disappears again this is looks like it's
19:11
possibly over still overloading here go
19:14
that go down to say say quarter a
19:16
second so again I think there might be
19:19
some Auto gain control going on here um
19:21
this is with the PFG option let's try
19:23
turning that off and see what
19:25
happens so I'm not sure this is actually
19:27
more streaking or which just it's
19:29
cranked up the gain all the dis display
19:31
gray scale to show what um you know the
19:33
range of things that it's captured
19:36
there's one of one of 12 things in the
19:38
software there's um you can see of you
19:40
can't seem to read out the temperature
19:42
of the pelta cooler but you can set the
19:44
temperature and if you said it's a
19:46
different temperature you see the power
19:48
consumption jump up running the cooler
19:50
to get the temperature you requested but
19:52
I can't see anything anywhere that tells
19:54
you whether the cool is at the at the
19:56
temperature other than the power
19:57
consumption going down and there's no
19:59
temperature read out
20:03
here and just some yeah this is just
20:05
sort of very basic software I'm sure
20:07
there's like an API for more
20:09
sophisticated
20:10
applications but so if you know anything
20:12
more about these cameras please um stick
20:14
in the
20:15
comments um incidentally when I was
20:18
editing I didn't notice there was a bent
20:19
pin on the um CCD but I did fix that
20:22
before doing these tests and also
20:24
reactivated the um silica gel desicant
20:26
cuz I noticed it was uh I was getting
20:28
bit of condensation on the window but um
20:31
yeah so a couple of uh interesting but
20:34
maybe not particularly uh useful pieces
20:37
of Kit except for someone that's got a
20:38
very specific use so um I'll stick a
20:42
I'll stick these on eBay put a link in
20:44
the description and say hopefully
20:45
someone could actually make some uh good
20:47
use of these things
Example Output:
**Exploring the Fluidigm Polaris: A Detailed Look at its High-End Optics and Camera System**

* **0:00 High-End Optics:** The system utilizes heavy, high-quality lenses and mirrors for precise imaging, weighing around 4 kilos each.
* **0:49 Narrow Band Filters:** A filter wheel with five narrow band filters (488, 525, 570, 630, and 700 nm) ensures accurate fluorescence detection and rejection of excitation light. 
* **2:01 Customizable Illumination:** The Lumen Dynamics light source offers five individually controllable LED wavelengths (430, 475, 520, 575, 630 nm) with varying power outputs. The 575nm yellow LED is uniquely achieved using a white LED with filtering.
* **3:45 TTL Control:**  The light source is controlled via a simple TTL interface, enabling easy on/off switching for each LED color.
* **12:55 Sophisticated Camera:**  The system includes a 50-megapixel Kodak KAI-50100 CCD camera with a Peltier cooling system for reduced noise.
* **14:54 High-Speed Data Transfer:** The camera features dual analog-to-digital converters to manage the high data throughput of the 50-megapixel sensor, which is effectively two 25-megapixel sensors operating in parallel.
* **18:11 Possible Issues:** The video creator noted some potential issues with the camera, including image smearing. 
* **18:11 Limited Dynamic Range:** The camera's sensor has a limited dynamic range, making it potentially challenging to capture scenes with a wide range of brightness levels.
* **11:45 Low Runtime:** Internal data suggests the system has seen minimal usage, with only 20 minutes of recorded runtime for the green LED.
* **20:38 Availability on eBay:** Both the illuminator and camera are expected to be listed for sale on eBay.
Here is the real transcript. Please summarize it: 
00:00:01 The Memory Palace technique for studying
00:00:02 is an absolute waste of
00:00:11 time unless you're going to use it
00:00:11 correctly and there's a correct way to
00:00:14 do it for sure and unfortunately a lot
00:00:16 of people do not teach it in its full
00:00:19 Glory the way that I used it as part of
00:00:22 getting my PhD and I had to spend hours
00:00:25 and hours and hours of time figuring out
00:00:28 how was it that the ancient people
00:00:30 carried entire books in their minds when
00:00:31 they couldn't carry them on their backs
00:00:33 and part of the reason why that isn't
00:00:36 taught correctly is simply because a lot
00:00:38 of other people haven't read the ancient
00:00:39 books that I found to work it all out so
00:00:43 if you want to stop wasting your time
00:00:45 and get maximum results with minimal
00:00:48 effort get subscribed hit that Thumbs Up
00:00:50 For the Love of memory and to help me
00:00:53 train the robots to remember that humans
00:00:56 care about the great memory tradition
00:00:59 and and the truth about what the Memory
00:01:01 Palace technique is and how to use it so
00:01:04 you can get A+ all the way
00:01:07 [Music]
00:01:27 down now we got to talk a little bit
00:01:27 about the origin of the method and no
00:01:29 one knows exactly when the Memory Palace
00:01:32 technique first arrived on the scene but
00:01:34 lots of people sure like to argue about
00:01:36 it now there's good research that's been
00:01:40 done by Lynn Kelly on prehistoric and
00:01:43 some of the early historic origins of
00:01:46 the Memory Palace technique in the
00:01:47 memory code and in Memory Craft but I
00:01:49 think she'll be the first one to tell
00:01:50 you that a lot of her ideas are
00:01:52 speculative we just don't know exactly
00:01:55 how ancient people around the world came
00:01:58 up with the concept but we do know know
00:02:00 a lot about how they used it and we know
00:02:03 that since time in Memorial teachers
00:02:06 have said no no no no no no no no don't
00:02:09 use it that way use it this way because
00:02:11 there are particular ways of using it
00:02:13 but there are also lots of people who
00:02:16 like to spread the general idea without
00:02:19 the completeness of the idea so when it
00:02:22 comes to using the Memory Palace
00:02:23 technique for studying in a way that
00:02:26 basically is going to help you deal with
00:02:29 the the current school systems or if
00:02:33 you're going to do it so that you can
00:02:35 pass certification exams for work and so
00:02:38 forth the earliest place to look if you
00:02:41 want to get into the history I believe
00:02:43 is a person named Hugh of St Victor so
00:02:46 his approach to the Memory Palace
00:02:48 technique is one of the first examples
00:02:51 where you'll see number systems applied
00:02:54 to memorizing historical dates for
00:02:57 example now you might not have to
00:02:58 memorize historical dates but it's
00:03:00 information encoded in numbers and you
00:03:04 can see him also using the idea of
00:03:08 reusing memory palaces so you would take
00:03:10 one Memory Palace memorize a layer of
00:03:13 information in it and then add another
00:03:15 layer of information one of the places
00:03:17 that you can learn about Hue of St
00:03:19 Victor is the medieval craft of memory
00:03:22 really excellent book there's a lot to
00:03:24 study about Hugh St Victor in particular
00:03:27 and I have a whole video about his
00:03:29 imaginary Memory Palace technique which
00:03:32 is essentially using Noah's Arc and then
00:03:34 reusing Noah's Arc or different versions
00:03:37 for versions of Noah's Arc in any case
00:03:39 you can spend your entire life studying
00:03:42 the history of the Memory Palace
00:03:43 technique and the more the merrier if
00:03:45 you ask me I just love when people find
00:03:49 new things that I haven't seen before
00:03:51 there is a wealth of information that
00:03:54 hasn't been translated into English yet
00:03:56 and so by all means get into it now the
00:04:00 benefit of using the Memory Palace
00:04:02 technique correctly in the way we're
00:04:03 going to talk about today is really
00:04:04 super easy to summarize so if you've
00:04:07 ever had any doubts like why am I
00:04:09 bothering to learn this at all let alone
00:04:10 learning it correctly which you should
00:04:12 is that it is a way of helping you place
00:04:15 information in your long-term memory
00:04:17 through a variety of active learning
00:04:19 processes that's what helps you pass
00:04:22 exams without stress and makes it that
00:04:25 you can minimize the amount of time that
00:04:26 you have to spend on using the technique
00:04:28 and then you get to enjoy enjoy this
00:04:30 feeling of confidence every time that
00:04:32 you study and then later when you sit
00:04:34 for your tests or if you're learning a
00:04:36 language you're able to just use new
00:04:39 vocabulary and phrases Etc relatively
00:04:42 fluidly there's more to it because you
00:04:44 actually do have to read write and speak
00:04:46 and listen to a language in order to get
00:04:48 that sort of fluidity but nonetheless
00:04:50 you have this onramp that allows you to
00:04:53 access information from your long-term
00:04:55 memory without having to go to the
00:04:57 Memory Palace so all that side let's
00:05:00 understand what the Memory Palace
00:05:01 technique is it's actually not just one
00:05:04 technique it's at least five techniques
00:05:07 coming together and the trick the secret
00:05:10 if you will is to make all of those
00:05:12 things come together as one seamless
00:05:16 move and they'll never be perfectly
00:05:18 seamless but you can get it quite close
00:05:20 to seamless think about the old Abraham
00:05:24 Lincoln thing you know give me six hours
00:05:26 to chop down some trees and I'll spend
00:05:28 the first four sharpening my axe then
00:05:31 take that further so we're going to talk
00:05:33 about sharpening your axe but then the
00:05:35 actual move of chopping down a tree
00:05:38 isn't just one move it's several moves
00:05:40 your eyes have to have coordination with
00:05:42 your hands in order to make the axe fall
00:05:45 in just the right way you have to have a
00:05:47 sense of saving your energy so that you
00:05:49 actually make every strike of that axe
00:05:52 have maximum velocity to reduce the
00:05:54 amount of times that you have to hit the
00:05:57 tree in order to make it fall over Etc
00:05:59 so it's it it's quite a nuanced thing
00:06:02 but not super nuanced to the point that
00:06:04 it's impossible it's just that you've
00:06:06 got to find The Knack of it and then
00:06:09 work on it and actually get out and and
00:06:11 chop some trees you know in order to
00:06:13 figure out how you're going to use the
00:06:16 sharpness of your axe to maximize the
00:06:19 results with minimal effort and those
00:06:21 come together with the five systems so
00:06:24 the Memory Palace system is one of them
00:06:26 then you have alphabetical associations
00:06:28 numerical associations symbol
00:06:30 associations and space repetition itself
00:06:32 which is a system and all of this
00:06:35 combines and blends beautifully within
00:06:38 the Memory Palace technique and it leads
00:06:41 to maximum memory retention now alphabet
00:06:44 systems number systems symbol systems
00:06:47 two words mental imagery what you do in
00:06:50 your mind is your imagination so a
00:06:52 mental image or Association doesn't have
00:06:55 to be seen this is one of the biggest
00:06:58 keys to getting The Memory Palace
00:07:00 technique to work flawlessly you don't
00:07:02 have to see memory palaces you don't
00:07:04 have to see any of your associations
00:07:05 that you use in memory palaces you just
00:07:09 have to figure this out because it's
00:07:11 knacky it's going to be a little
00:07:13 different in your mind you got to lean
00:07:15 into it and you got to get away from
00:07:16 this Sherlock Holmes mythology you don't
00:07:19 say I must go to my mind Palace you just
00:07:22 have the information that's why we use
00:07:25 the Memory Palace technique for studying
00:07:26 so that we just have the information so
00:07:29 we need to use these five systems so
00:07:31 that the information enters your
00:07:32 long-term memory and then you can access
00:07:35 it without having to think about the
00:07:37 Memory Palace technique at all in a way
00:07:40 these five systems when they work
00:07:41 together are like the training wheels
00:07:43 that you would have on a bike as soon as
00:07:46 you're done training your mind with the
00:07:49 individual sets of information those
00:07:51 training wheels or the pneumonics
00:07:53 including the Memory Palace itself just
00:07:55 Falls away All That Remains is the
00:07:57 target information when you need it and
00:07:59 that is such a glorious and beautiful
00:08:15 thing I have so many thousands of
00:08:15 drawings from students who have sent me
00:08:17 their memory palaces and thanked me why
00:08:19 didn't somebody tell me to do this
00:08:21 before it is so critical because if you
00:08:27 don't allow yourself to PL and the
00:08:30 Memory Palace you wind up building it as
00:08:32 you go and that's trying to do two
00:08:34 things at once you want to establish
00:08:37 clear and distinctive locations within
00:08:40 each and every Memory Palace the key is
00:08:43 making sure that the Memory Palace is
00:08:45 clear to you and that it is clearly
00:08:47 based on what you remember don't invent
00:08:52 things don't get caught up in well this
00:08:56 couch might move in the future or this
00:08:58 couch has been in different different
00:08:59 places in the past if that is going to
00:09:03 be in your mind at all just don't use
00:09:05 the couch and don't think yet about
00:09:08 having pretend couches or imaginary
00:09:11 bookcases stunts like that can be useful
00:09:13 and they can come later but what we want
00:09:16 to do in the beginning is make it as
00:09:19 based on memory as possible 100% based
00:09:23 on memory so that you can not have to
00:09:26 worry about visualizing it many people
00:09:29 they start with this their memory is too
00:09:30 rusty to worry about visualizing you
00:09:33 just want corners and walls if that's
00:09:35 what it takes or you just want to use
00:09:37 the center of a room to add
00:09:40 anything things like flying off of
00:09:43 balconies passing ghostlike through
00:09:45 walls anything that you don't do in
00:09:48 reality is giving yourself something to
00:09:51 remember that's called a memorized
00:09:54 Palace and it places cognitive load on
00:09:58 the tool when the whole point of a true
00:10:01 Memory Palace is to maximize the power
00:10:05 of using distinctive locations exactly
00:10:09 the way you remember them without having
00:10:11 to elaborate anything rest assured
00:10:14 there's plenty of opportunity to
00:10:17 elaborate things when you're using your
00:10:19 alphabet system your number system your
00:10:21 symbol system and we're going to discuss
00:10:22 that in a minute but get this most
00:10:25 important points of all of them if
00:10:29 you're worried about couches moving
00:10:31 around you're adding unnecessary
00:10:33 thinking if you're thinking about well I
00:10:36 could pass like a ghost through this
00:10:37 wall you're giving yourself unnecessary
00:10:40 thinking because you're going to have to
00:10:41 remember that detail you want a clear en
00:10:44 cpse Journey you want to start at a
00:10:47 location and move in a linear fashion
00:10:50 through your mind whether you see it or
00:10:52 not and you don't have to see it cuz you
00:10:54 can just draw it you're going to move
00:10:57 from Station to Station to Station based
00:10:59 on your memory that's a true Memory
00:11:01 Palace and anything that has to be
00:11:03 memorized about it is gone because
00:11:05 that's not the art of memory so once you
00:11:09 do this with a couple memory palaces and
00:11:11 you use them and you fill them you'll go
00:11:13 oh yes that's why he's so insistent
00:11:15 about this right and yes later you can
00:11:18 do all kinds of fancy stuff and you can
00:11:19 use memory pales that are memorized in
00:11:21 all kinds of different ways there's
00:11:23 endless ways to play around with this
00:11:25 but if you're studying you don't want to
00:11:27 take the risk of having fiddly little
00:11:29 nudely memory palaces that are not
00:11:32 optimized based on this simple principle
00:11:36 now the next thing that's really
00:11:39 important here to make sure that the
00:11:40 Memory Palace technique for studying is
00:11:42 worth your time is to make sure you're
00:11:46 using it for the actual information that
00:11:49 matters and so I'll share with you how
00:11:52 I've used this technique and I've always
00:11:55 studied with wild abandon I've tried to
00:11:59 extract as much information as I
00:12:01 possibly could within certain limits
00:12:05 training my mind to understand what is
00:12:08 actual information that's worth
00:12:10 memorizing and what you kind of have to
00:12:12 do
00:12:14 is make a assessment on the fly so what
00:12:17 I love to do is extract information onto
00:12:22 cards I'm reading a book and I'll make a
00:12:25 little mental note I'll say this book
00:12:27 looks like it's got 10 chapters probably
00:12:29 there's going to be 10 points let's say
00:12:31 in each chapter maybe three depends on
00:12:33 what the book looks like and I will
00:12:35 limit myself to a certain amount of
00:12:37 points and when I find a point that I
00:12:39 don't know I don't recognize it I don't
00:12:41 know it before I do any memorizing I
00:12:44 will extract that information onto cards
00:12:47 now that's phase one no memory palaces
00:12:50 are in play at all phase two is to go
00:12:53 through the cards and then check does
00:12:55 this really need to be memorized does
00:12:57 this need to be memorized what about
00:12:58 this and I will throw cards away or
00:13:02 place them in a different area because
00:13:05 if it doesn't need to be memorized why
00:13:07 memorize it why use the Memory Palace
00:13:09 space for information that hasn't passed
00:13:13 the test now the key with this to
00:13:16 understand this is that this process of
00:13:18 weeding through notes that have been
00:13:22 taken is itself part of forming memories
00:13:26 right and it is about summarization it's
00:13:29 about annotation and it's about
00:13:32 assessing the validity and the value of
00:13:34 key points and calling them out this
00:13:38 will itself form memories and it will
00:13:41 help you understand ah this key point I
00:13:44 need to memorize it and then you
00:13:46 memorize only those things that are the
00:13:48 key points knowing that you're forming
00:13:50 memories throughout that entire process
00:13:53 now there's a principle that I call the
00:13:55 romatic effect and it basically is a
00:13:59 less is more approach and less usually
00:14:02 is more so let's say that you started
00:14:05 with 30 cards from a book and you've
00:14:07 winnowed it down to 10 things that you
00:14:09 need to memorize those 10 things that
00:14:11 you memorize they're probably going to
00:14:15 connect to the other things that you've
00:14:17 weeded out simply because you focused on
00:14:20 the 10 but you read the entire book and
00:14:23 so your mind is going to be able to send
00:14:25 out tendrils like ra romes send out
00:14:28 little tend
00:14:29 to connect and they may be connections
00:14:32 that are like non-coupling magnets so I
00:14:37 don't know if you've ever seen these
00:14:38 trains that they don't actually attach
00:14:41 to each other physically but they attach
00:14:43 to each other magnetically the
00:14:45 individual cars between the trains in
00:14:48 any case the whole point is is that
00:14:49 things can connect without being
00:14:51 connected and that's what this whole
00:14:53 windwing approach is all about the
00:14:54 culling approach going through cards and
00:14:57 then selecting what you're going to
00:14:58 memorize
00:14:59 so what you're going to do is once you
00:15:02 have identified the information where
00:15:04 the stakes are high these are terms you
00:15:07 don't know these are words that you need
00:15:09 to memorize these are phrases that you
00:15:10 need to memorize names of figures
00:15:13 historical dates Etc then you're going
00:15:15 to use your memory palaces for that
00:15:18 stuff not everything but the most likely
00:15:21 to be tested information and the most
00:15:24 likely to create this romatic effect
00:15:27 that draws things together there's
00:15:29 another little thing that I'll mention
00:15:31 here that has to do with using the pages
00:15:34 of books as memory palaces un themselves
00:15:37 or mini memory palaces so how that works
00:15:41 is that you're going to have your number
00:15:43 system built out that you can watch in
00:15:46 the POA system video to learn what that
00:15:49 is but basically what it is is you're
00:15:50 going to have an image for every number
00:15:52 and so when you have a page you can turn
00:15:54 any page into a mini Memory Palace based
00:15:56 on your image for each number and so the
00:15:59 book in effect becomes a kind of Memory
00:16:01 Palace unto itself where instead of the
00:16:05 wall being a station in a Memory Palace
00:16:07 and then the corner being a station in
00:16:08 the Memory Palace and a couch and a
00:16:09 fridge and a chair and all that sort of
00:16:11 stuff each page is the equivalent of a
00:16:14 wall in a corner and you distinguish it
00:16:16 in your mind because page 99 is an image
00:16:19 for you my 99 is the pope not the Pope
00:16:23 in Rome the singer from Ghost the point
00:16:26 is that 99 is very very distinct and
00:16:29 then whatever information is on that
00:16:31 page I will then elaborate it and link
00:16:33 it together with the ghost so there's
00:16:37 lots and lots of examples I can give for
00:16:39 this page 79 in a Eugene ther book well
00:16:42 actually page 71 to 79 talks about the I
00:16:47 think it's the 19th sermon from Meister
00:16:49 eart where he's quoting acts 98 which is
00:16:52 something like Saul rose up from the
00:16:53 ground and saw nothing and then he talks
00:16:55 about the four kinds of nothing and the
00:16:57 way that the this is not in a Memory
00:17:00 Palace and it never was except for the
00:17:02 book has a Memory Palace is that that
00:17:04 passage starts on page 71 it ends at
00:17:07 page 79 there's an image for 71 and
00:17:09 there's an image for 79 the image for 71
00:17:13 seven is a k one is a t or d so I make
00:17:16 the word cat and there's a specific cat
00:17:19 and then seven is a k nine is a p so I
00:17:22 have capped in crunch because cap is the
00:17:24 sound for this so now there's this range
00:17:28 and then the cat who is the Cheshire Cat
00:17:32 is then linked with Captain Crunch and
00:17:35 linked with the images for the 19th
00:17:38 sermon of Meister eart the numbers for
00:17:41 acts 98 the whole idea of there being
00:17:43 four kinds of nothing for symbolized by
00:17:46 a sailboat and on and on and on so this
00:17:48 is a little bit more intermediate and
00:17:49 advanced but it's still the Memory
00:17:51 Palace technique looked at in a
00:17:53 different way because each and every
00:17:55 station is clear and distinct in My Mind
00:17:57 by virtue of each number having an image
00:18:01 in the same way that every corner in a
00:18:03 room has an image the corner itself
00:18:06 every wall has an image now if I'm
00:18:08 studying for an exam I'm probably not
00:18:11 going to use that technique I'm probably
00:18:12 going to use the standard Memory Palace
00:18:15 technique because it's much more
00:18:17 effective and efficient and it reduces
00:18:20 the feeling of being overwhelmed because
00:18:22 a corner has space between itself and
00:18:26 the wall and then that allows for a
00:18:29 broader painting so to speak with the
00:18:32 mental imagery and it allows for more
00:18:34 spaced repetition to work with space
00:18:39 between the stations now the ancient
00:18:40 memory technique books talk about this
00:18:42 they always talk about having your
00:18:46 stations in your memory palaces have
00:18:48 some breathing room right and you don't
00:18:50 get that with the page technique if you
00:18:52 have something on 98 and on page 99
00:18:55 there's no breathing room between those
00:18:56 two pages and it is a little bit of an
00:18:58 issue and a problem but that's why I
00:19:00 only use it for my reading when I'm not
00:19:03 having an exam I'm studying so to speak
00:19:05 but I'm not under the pressure of having
00:19:07 an exam so if I lose little details here
00:19:10 and there no pressure no worries so for
00:19:14 a for a proper Memory Palace for
00:19:17 studying if I have an exam I'm just
00:19:19 simply not going to use the book as a
00:19:21 Memory Palace I'm going to have a proper
00:19:23 room a house a home a church a cafe Etc
00:19:27 in order to give myself more space for
00:19:31 the recall rehearsal and really recall
00:19:33 rehearsal requires a bit of mental
00:19:34 dexterity and I don't want fiddling
00:19:36 around I don't want to have to worry
00:19:38 about distinctions between page 98 and
00:19:39 99 no matter how clear they are at the
00:19:42 level of the the the different images
00:19:46 because it still doesn't have that
00:19:48 spatial room in which to do station
00:19:52 skipping in recall rehearsal which we'll
00:19:54 talk about later before we get to recall
00:19:57 rehearsal though and space repetition
00:20:00 systems and using the Memory Palace in
00:20:02 that systematic way we got to think
00:20:04 about the way you use a Memory Palace to
00:20:07 combine information with associations to
00:20:09 link those individual spaces through
00:20:12 Association Now Memory scientists call
00:20:14 this step elaborative in coding and this
00:20:17 is why you want your memory palaces to
00:20:20 be as clear and distinct as possible
00:20:23 because if you have to Fiddle in your
00:20:24 mind with the Memory Palace technique
00:20:27 then you're not going to have enough
00:20:28 enough cognitive space to work on
00:20:31 elaborating and associating your images
00:20:34 with that space so think about each
00:20:36 station as just needing to be what it is
00:20:39 when you go to your fridge in your home
00:20:41 right you don't want to have to have all
00:20:44 kinds of issues with it you just want to
00:20:46 go to the fridge because you know
00:20:47 clearly where it is and then if you want
00:20:50 to take a fridge magnet you want to
00:20:52 stick that magnet on the fridge to hold
00:20:54 concert tickets in place or something
00:20:56 like that so if you want to to memorize
00:20:59 a word like I wanted to memorize a very
00:21:01 simple example recently
00:21:04 enantio right I want to memorize this
00:21:07 word so I'm going to go to my brother's
00:21:09 place right and I'm going to use his
00:21:13 living room in this particular case and
00:21:15 anoia and I'm going to imagine Ant-Man
00:21:18 watching video Drome in his living room
00:21:21 there's a bit more to the image than
00:21:23 that but the core technique was executed
00:21:27 by paying attention to the alphabetical
00:21:30 construction of the word the
00:21:33 relationship to my brother which is also
00:21:36 alphabetical and then placing it in a
00:21:39 place that is clear and distinct in my
00:21:41 mind where I don't have to think about
00:21:42 the place at all I just have to have the
00:21:44 alphabetical Association and then I put
00:21:47 Ant-Man in that place watching video
00:21:49 Drome so the N has to do with my brother
00:21:52 the enantio antio has to do with Ant-Man
00:21:56 the Ria has to do with video drum
00:22:00 they're paired with the living room and
00:22:02 the success of pairing them together so
00:22:04 quickly has to do with the memory Pals
00:22:06 just being a non-issue it's worked out
00:22:09 in advance I know where I'm going to go
00:22:11 I know what the next word will be if I
00:22:12 want to add one in the Memory Palace or
00:22:15 the next phrase or whatever the
00:22:16 information is it could be a symbol from
00:22:18 math and so on and so forth all that
00:22:20 stuff has to be super clear if you're
00:22:21 going to use the Memory Palace technique
00:22:23 for studying efficiently because then
00:22:26 when you come across hard words like an
00:22:27 antio you want to just be very quick in
00:22:30 putting those associations there and you
00:22:32 want to have memorable pneumonic images
00:22:35 not vague weak things where you have to
00:22:37 go oh what was that image there no no no
00:22:39 no no you don't want any of that stuff
00:22:40 right you want Vivid images and this is
00:22:43 where it's really important to
00:22:44 understand that the images are not about
00:22:46 images
00:23:16 what is really about is using logic upon
00:23:16 logic using the Memory Palace as a
00:23:18 logical sequence of stations throughout
00:23:21 a space a journey to link highly
00:23:24 multi-sensory images that are already in
00:23:27 your memory so my brother's already in
00:23:29 my memory Ant-Man is already in my
00:23:31 memory and video Drome is already in my
00:23:33 memory and I'm just linking these things
00:23:35 together with the sound and the meaning
00:23:37 of an
00:23:38 antio Right This is So Glorious when you
00:23:42 start to get this when you start to
00:23:43 practice it on this basis it's very very
00:23:46 important because you don't want to
00:23:48 invent stuff you don't want to have to
00:23:50 create images I get messages all the
00:23:53 time I'm struggling to create images
00:23:55 whoever taught you to create images in
00:23:56 the first place I don't know oh why that
00:24:00 that people talk about it that way
00:24:01 that's not the art of memory the art of
00:24:03 memory is to use memory to use memory
00:24:05 palaces that are based on memory to use
00:24:07 images that are based on memory and to
00:24:09 combine the two logically first and
00:24:13 foremost then you add different forms of
00:24:16 elaboration where images might be
00:24:18 involved now to refine everything to the
00:24:21 nth degree I prefer what I call the cave
00:24:25 cogs formula so rather than
00:24:29 bus around with all this stuff to
00:24:30 elaborate it I simply follow that
00:24:33 formula so rather than seeing Ant-Man as
00:24:35 such I first get a kinesthetic feeling
00:24:38 that's the K in cave cogs so what might
00:24:41 that feeling be well depends on what
00:24:45 what's going on what is the meaning of
00:24:46 the word so I will try to feel Ant-Man
00:24:50 you know somehow being overwhelmed by a
00:24:53 force and then responding to that force
00:24:55 in a particular way physically because
00:24:57 that relates the meaning of this word
00:24:59 then I'll hear an auditory sensation in
00:25:02 my mind's ear then maybe I'll have some
00:25:06 visual in this case I didn't really have
00:25:07 any visual because it's just not
00:25:09 necessary so I don't always have kav
00:25:12 kinesthetic auditory visual but I do
00:25:14 have an emotion and that emotion is also
00:25:17 felt but it's not felt physically in
00:25:19 ant-man's body it's felt in his emotion
00:25:22 so Ant-Man is played you know by a
00:25:25 particular actor and so uh is it Paul
00:25:28 red who plays you don't even have to
00:25:30 remember who it is that plays the
00:25:32 character as long as you can get that
00:25:35 sensation in your mind of what his way
00:25:39 of feeling emotional would be relative
00:25:41 to the sound and the meaning of the word
00:25:43 then there's conceptual which is the sea
00:25:46 in cave cogs and that can be a hard one
00:25:49 for people to understand but basically I
00:25:51 just want to think a little bit what's
00:25:52 the genre here what's going on so video
00:25:55 Drome is kind of like a body horror
00:25:56 movie and an man is a Marvel picture I
00:26:00 believe and so these ideas are going to
00:26:02 be touched upon and then I'm going to
00:26:04 try to relate them logically to the
00:26:05 meaning of an antio theia then we have
00:26:08 old factory gustatory and spatial and
00:26:10 that's can get a little smell and a
00:26:12 taste in there and then think about the
00:26:14 sizes of things in relationship to each
00:26:16 other so literally feeling what it would
00:26:19 be like to watch a movie in the body of
00:26:21 Ant-Man creates all of these multi-
00:26:25 sensory
00:26:26 associations it is so important and you
00:26:29 can train yourself to do this very very
00:26:33 quickly and all the more so because
00:26:35 you're basing your images on things that
00:26:38 you've seen in the real world now I know
00:26:40 you may not have seen video drum I know
00:26:41 you may not have seen Ant-Man but this
00:26:43 is this is the art of memory is for you
00:26:45 to practice using what you have seen
00:26:49 what you have a relationship with some
00:26:51 people they absolutely love anime right
00:26:53 because they just spent a lot of time
00:26:55 with anime great some people like
00:26:57 Pokemon some people like all kinds of
00:26:58 things I happen to like weird Canadian
00:27:00 movies like video drum and I like
00:27:02 Ant-Man so you know these things have
00:27:05 come to mind but they don't come to mind
00:27:07 out of nowhere they come come to mind
00:27:08 because I've trained myself to do this
00:27:10 so how are we going to train ourselves
00:27:12 to do this as a rabbi once told his
00:27:17 student who said how is it that you guys
00:27:18 are memorizing the Tanakh with such
00:27:21 great tenacity well the rabbi said you
00:27:25 must become a student a serious student
00:27:30 of the alphabet so please become a
00:27:32 serious student of the alphabet get
00:27:34 yourself a blank faed deck of playing
00:27:37 cards or just some of these wonderful
00:27:40 index cards blank and write out the
00:27:43 alphabet and look at letters so when you
00:27:46 have the letter U instantly come to your
00:27:48 mind should be Uma Thurman right or
00:27:51 whoever it could be uve B you don't know
00:27:54 these people necessarily I do I worked
00:27:55 with uve B on a movie when I was a story
00:27:58 but that's who I have here instantly
00:28:00 when I look at you and I train myself
00:28:02 just go through here who else could I
00:28:03 add Alberto Ekko the great writer who
00:28:06 wrote the name of the Rose uh and
00:28:08 wonderful non-fiction and then you know
00:28:10 you go to R and Ricky J comes to mind
00:28:13 and so on and you go to Jay The Joker of
00:28:15 course should come to mind everybody
00:28:17 knows the Joker don't they but also Jack
00:28:18 Nicholson who played The Joker uh and on
00:28:22 and on and on uh John Connor it could be
00:28:24 a fictional character John Connor of
00:28:25 course being uh J J C in The Terminator
00:28:29 series and Jesus Christ which is
00:28:31 probably why he was named JC uh C Cookie
00:28:34 Monster on and on and on X I know this
00:28:36 is a a letter that troubles a lot of
00:28:38 people zentia Zen xenophon Xerxes
00:28:42 Professor X from
00:28:44 X-Men uh did I say Zenia yeah that was I
00:28:47 believe the wife of Socrates the the
00:28:49 whole point is is you got to train
00:28:51 yourself to be able to do this and also
00:28:53 objects are useful too xylophone comes
00:28:55 to mind for X um
00:28:58 Malcolm X you know on and on and on and
00:29:00 uh if you don't have a Memory Palace for
00:29:02 X then you could think of a library
00:29:03 where you read about Malcolm X that s
00:29:05 sort of thing you also want to include
00:29:07 some numbers in here because you want
00:29:09 number systems as well so this has
00:29:12 particular symbols and it depends on
00:29:13 which number system we're using I know
00:29:15 this is all mentally overwhelming for
00:29:16 people who are new to it but you reduce
00:29:18 the overwhelm by training what do you
00:29:20 know that starts with s Superman
00:29:24 probably most people know Superman and
00:29:27 you can go from there right and there's
00:29:29 all kinds of people and you just got to
00:29:31 train yourself and that's one of my
00:29:33 favorite ways to train and practice
00:29:35 simple cards you don't have to go to the
00:29:36 extent that that I've gone to to uh make
00:29:39 your own deck but I recommend that you
00:29:42 at least do it with this and then have
00:29:44 one just for numbers and just for
00:29:46 symbols and train yourself to constantly
00:29:49 come up with these associations because
00:29:51 then when you're
00:29:52 studying you won't have any issues
00:29:55 whatsoever coming up with these images
00:29:58 you won't and I know you won't because
00:29:59 the memory science is very very clear
00:30:02 you are going to train your procedural
00:30:04 memory and procedural memory is a
00:30:06 superpower when you're using the Memory
00:30:08 Palace technique for
00:30:28 studying now the other thing to do with
00:30:29 this is to also train Cape cogs so let's
00:30:31 say you have Superman or you have anano
00:30:34 dromia and you're thinking about Ant-Man
00:30:36 or whatever the whole point is is to
00:30:39 elaborate this thing so let's say we're
00:30:41 in my brother's house we're memorizing
00:30:43 an antio the Ria and we have Ant-Man
00:30:47 smelling steak right and it's covered in
00:30:50 ants and then we have Superman serving
00:30:52 the steak or whatever well we're going
00:30:54 to feel Superman serving the steak he's
00:30:58 really going to hold the plate of with
00:30:59 the steak covered in Ants In His Hands
00:31:01 we're going to feel that in our hands
00:31:03 we're going to
00:31:05 hear of all these ants moving around
00:31:07 we're going to have a visual of it I
00:31:09 mean you don't even have to see the
00:31:10 visual in order to imagine what it would
00:31:12 look like if you could see it there's
00:31:14 usually no time when you're memorizing
00:31:16 then we're going to go through the
00:31:17 emotion so Superman what emotion does he
00:31:19 have when he's handing a steak to
00:31:21 Ant-Man in order to help us remember
00:31:24 this word right and then you can have
00:31:26 the smell and the taste of what stake is
00:31:28 like you can have the concept which is
00:31:30 like Superman is actually from DC
00:31:32 instead of Marvel Etc and on and on and
00:31:35 you can have the size of Superman's
00:31:36 muscles relative to ant-man's muscles
00:31:39 you can train on every single card right
00:31:41 so you get to q and you think of Quincy
00:31:43 Jones and then you can think of Quincy
00:31:45 Jones doing something what does that
00:31:46 physically feel like and you can rotate
00:31:48 through your cave CS so you get to your
00:31:50 ex and you have Xerxes or or xenophon or
00:31:55 whoever and you can think h well okay so
00:31:58 what is he going to have a physical
00:32:00 sensation of and you can actually take
00:32:02 two of your cards together so if you
00:32:04 have I don't know Kurt Russell and
00:32:07 zenfon so now what are they going to do
00:32:10 to each other to have a kinesthetic
00:32:12 Association to have an auditory
00:32:14 sensation to have a visual to have an
00:32:15 emotion Etc so train train train in
00:32:18 advance so that you're able to come
00:32:20 across information rack it and stack it
00:32:22 in a Memory Palace and have images that
00:32:25 are already in your memory because you
00:32:28 look at the letter H and you don't have
00:32:30 to hum and haw over this you got Harry
00:32:32 Lorraine for H I mean of course we're in
00:32:34 the memory World here we have har rain
00:32:36 but we have all kinds of people and we
00:32:38 just train train train and it doesn't
00:32:39 take more than a second to just think of
00:32:42 who we're going to have people named
00:32:43 Frank I have a friend named Frank
00:32:45 there's a philosopher named Michelle
00:32:46 Fuko on and on and on Einstein for E Etc
00:32:50 but who else see if you can always push
00:32:52 yourself to get five people Etc so Eric
00:32:55 from blah blah blah like on and on and
00:32:57 on and work at it it's really really
00:32:59 important chances are you already know
00:33:02 five people that have the letter V
00:33:05 somehow in their name train train train
00:33:08 and then you're always going to have
00:33:09 sharp associations that are based on
00:33:11 what's already in your memory to place
00:33:14 in well-formed memory palaces that are
00:33:16 also already in your memory with no
00:33:18 invention you don't have to create
00:33:20 anything if the memory palaces aren't
00:33:23 well formed and you're sitting there
00:33:25 trying to come up with things that don't
00:33:27 exist or that aren't already in your
00:33:28 memory you're making it too hard
00:33:32 so the next question that we want to
00:33:35 cover assuming you have all of this
00:33:40 fundamental optimized wonderful
00:33:43 strategies and tactics under your belt
00:33:46 or at least you're practicing them based
00:33:48 on the real tradition the way it really
00:33:50 has worked for thousands of years you're
00:33:52 going to be wondering like well how do I
00:33:53 now do this with multiple subjects I
00:33:56 have chemistry on Tuesday I have
00:33:58 philosophy on Wednesday like how do I
00:34:01 juggle all of this well to use the
00:34:02 technique for a variety of subjects make
00:34:05 sure to have multiple memory palaces and
00:34:08 the simplest way to set up for the
00:34:12 mental dexterity involved in switching
00:34:15 between multiple memory palaces is to
00:34:18 have them in the first place have one
00:34:20 for each letter of the alphabet so that
00:34:22 you're able to encode always at the
00:34:25 alphabetical level now that doesn't mean
00:34:26 that you are always is going to encode
00:34:28 at the alphabetical level you might want
00:34:30 to build a number-based Memory Palace
00:34:33 system and have sub memory palaces
00:34:35 memory palaces within memory palaces on
00:34:38 and on and on and on but the reality is
00:34:40 is the easiest way to do it is just to
00:34:42 Simply have one for every letter of the
00:34:44 alphabet only scarcity based thinking
00:34:47 holds people back in this Regard in
00:34:50 reality there is more space around each
00:34:53 and every one of us than any of us could
00:34:56 ever hope to use in a lifetime so get
00:35:00 busy get a piece of paper out write the
00:35:02 letter a and then write all the letters
00:35:05 from A to Z or whatever letters are
00:35:07 involved in your mother tongue and then
00:35:09 just think who can I use for a oh I got
00:35:11 a friend named Adam oh I got a friend
00:35:12 named Brad and just draw out their
00:35:14 memory palaces so that you never have to
00:35:17 really think about those memory palaces
00:35:19 again because you'll have base them on
00:35:22 memory and then when it comes time to
00:35:23 use them you'll have them ready to go
00:35:25 your journey sorted out in advance
00:35:28 now there's the point about
00:35:32 memorizing dates so let's say you know
00:35:35 you're doing history and you have to
00:35:38 switch from philosophy to history or you
00:35:40 had to add a historical date to a
00:35:43 philosophical point and so forth you're
00:35:44 going to want a number system now the
00:35:46 most popular system is the major system
00:35:50 or it's big brother so to speak which is
00:35:52 a 00 to 99 Pao system all of that is
00:35:56 covered in its own video video you can
00:35:58 look in the resources for links below
00:36:01 and whatever it is studying for science
00:36:04 for concepts for theories it comes down
00:36:07 to these five systems and the way that
00:36:10 you got to deal with Concepts and
00:36:11 Science and theories and
00:36:13 formulas is really make sure that you're
00:36:15 not hypnotizing yourself into thinking
00:36:17 that
00:36:19 anything that appears in words numbers
00:36:23 letters
00:36:24 symbols is difficult it's not if you can
00:36:28 memorize one word you can
00:36:31 memorize thousands if you can memorize
00:36:34 one string of digits you can memorize
00:36:36 thousands of them if you can work out a
00:36:38 way to memorize an imaginary symbol like
00:36:40 a two with an umlout on it you can
00:36:42 memorize any symbol in the world you
00:36:46 know you've just got to work out well
00:36:48 what is going to be my pneumonic
00:36:49 Association for an umlout and you know
00:36:53 in Greek you may see two dots it's not
00:36:55 an umlout in Greek but in any case
00:36:57 there's lots of places where these
00:36:58 things come up with so you might need to
00:37:00 know the difference between the uml how
00:37:02 it's used in German and then how these
00:37:05 two dots are used in Greek and then you
00:37:07 just Place those things in different
00:37:08 memory palaces but if you sit there and
00:37:09 trick yourself into thinking oh my
00:37:11 goodness there must be some different
00:37:14 system for this there isn't it's always
00:37:16 the same system all you need is to make
00:37:20 your systems in advance so Memory Palace
00:37:23 system alphabet system number system
00:37:25 symbol system and then comes the space
00:37:29 repetition system or what I prefer to
00:37:31 call recall
00:37:33 [Music]
00:37:46 rehearsal recall rehearsal is the core
00:37:49 reason to use the Memory Palace
00:37:51 technique for studying in the first
00:37:54 place it is beautiful for space
00:37:57 repetition and to do it well you will
00:38:00 practice with a specific kind of
00:38:02 retrieval that will strengthen your
00:38:03 memory and Usher your target information
00:38:06 into long-term memory quickly so
00:38:10 basically what you want to do is have
00:38:12 enough information in the Memory Palace
00:38:13 first let's say you have 10 pieces of
00:38:16 information in a Memory Palace and how
00:38:19 how this works is you want to apply
00:38:21 equal doses of pracy effect and recency
00:38:24 effect to each piece of information
00:38:26 using the serial positioning effect so
00:38:29 without going into a long speech about
00:38:31 Herman ebbing house and the forgetting
00:38:32 curve and all of that all you need to do
00:38:35 is revisit the information in the marry
00:38:38 Palace by moving forward backward from
00:38:40 the middle of the Mary Palace to the
00:38:42 beginning and then from the middle of
00:38:44 the marry Palace to the end of the
00:38:45 sequence and then you want to skip the
00:38:47 stations each of these recall patterns
00:38:51 will challenge you and that's precisely
00:38:54 the point because you're dipping into
00:38:56 what scientists of learning and memory
00:38:59 sometimes call Active recall and it is
00:39:04 the challenge that helps form the
00:39:06 memories and when you're making mistakes
00:39:09 that's not a problem that's actually an
00:39:11 opportunity to think what was wrong with
00:39:14 my image in the Memory Palace that needs
00:39:17 just a little bit of tweaking a little
00:39:18 bit of improving this goes back
00:39:20 thousands of years you can find this in
00:39:23 Aristotle's deoria and I've talked about
00:39:26 it in a video called Aristotle's nuclear
00:39:29 alphabet if you want to know more about
00:39:30 just how old this principle is so you
00:39:34 need to follow those orders and then you
00:39:37 solve all your problems because a lot of
00:39:38 people will say well how do I extend a
00:39:41 Memory Palace can I alter a Memory
00:39:43 Palace can I change its size dimensions
00:39:46 can I extend its size all this stuff
00:39:48 right well if you develop them optimally
00:39:50 in the first place and you use recall
00:39:52 rehearsal to get the information into
00:39:54 long-term memory extending A Memory
00:39:56 Palace should never be needed and plus
00:39:59 you'll have a Memory Palace for every
00:40:00 letter of the alphabet and then you'll
00:40:01 have another Memory Palace Network again
00:40:05 based on the letters of the so in other
00:40:07 words you'll have two memory palaces for
00:40:09 a eventually if not three if not four
00:40:12 Etc and you just don't have to extend
00:40:16 any individual Memory Palace because the
00:40:18 whole point is to use it to get the
00:40:20 information into longterm memory now
00:40:21 there's a principle called compounding
00:40:23 which is if you have memories
00:40:24 established you can add on details so
00:40:28 let's say I've got an antio dromia set
00:40:31 up I remember that it's in a particular
00:40:33 Memory Palace and then I want to add on
00:40:35 some facts about Carl Young and connect
00:40:38 it to another one of his cool words like
00:40:42 cryptomnesia right well I can compound
00:40:44 that on in the original Memory Palace
00:40:46 but I should be just as capable of
00:40:49 making a new memory Palace or using a
00:40:51 pre-assigned Memory Palace and then just
00:40:54 adding on this relationship shouldn't
00:40:56 have to go back back to the original
00:40:58 Memory Palace shouldn't have to extend
00:41:01 the original Memory Palace I shouldn't
00:41:02 have to connect one Memory Palace to
00:41:04 another in ways that don't actually
00:41:06 reflect the reality of those spaces you
00:41:09 certainly can but it shouldn't be
00:41:11 necessary because the new information
00:41:12 can just be memorized new and here's the
00:41:15 beauty of it all you sometimes just
00:41:18 remember it because you've already
00:41:20 established this core piece of
00:41:22 information in your long-term memory and
00:41:25 if you want to not have any risk at all
00:41:28 you just grab one of your memory palaces
00:41:30 and you weave it into space and then you
00:41:33 use recall rehearsal to get the
00:41:36 information into long-term memory so you
00:41:38 don't have to worry about overcrowded
00:41:40 memory palaces you don't have to worry
00:41:41 about overpacking your memory palaces at
00:41:43 the end of the day although that is
00:41:45 bound to happen if you're a serious user
00:41:48 the real key is to have as many memory
00:41:50 palaces as possible to prevent these
00:41:53 issues from ever happening in the first
00:41:55 place and then when they do happen you
00:41:57 can correct course and just say oh wow
00:42:00 I'm really getting scarcity mindset here
00:42:02 I'm trying to put too much stuff in this
00:42:04 one place I'll just move this into
00:42:06 another Memory Palace using the
00:42:08 alphabetical method drawing upon other
00:42:12 places that I have established so I've
00:42:14 really wanted to focus our minds on just
00:42:18 using the marry Palace almost purely
00:42:20 logically but there are some other ways
00:42:23 that you can play around with this and
00:42:26 they really ultimately come down to Cave
00:42:27 cogs so one thing you can do for example
00:42:30 is Imagine riding physically onto the
00:42:34 walls of your memory palaces aquinus
00:42:36 suggests this based on the wax tablet
00:42:39 metaphor of memory that we see in
00:42:42 Aristotle Plato Etc and I found that
00:42:47 that is just an additional amount of
00:42:49 cognitive effort that isn't necessary I
00:42:52 like to float my associations so they're
00:42:55 not physically connected to the walls or
00:42:58 the floor or the ceiling of the memory
00:43:00 palaces and this approach gives more
00:43:03 breathing room in my experience to each
00:43:06 and every image now sometimes they may
00:43:08 be connected so when I think about an
00:43:11 anoia and Ant-Man he's kind of in a
00:43:15 recliner he's connected to the station
00:43:18 by virtue of the fact that there is a
00:43:20 recliner in the location that I used but
00:43:24 if there was nothing there I would just
00:43:27 float the image in space and not have
00:43:30 any special need for connection so I
00:43:32 will use the physical space if that it
00:43:35 lends itself to what I'm doing but not
00:43:38 if I'm worried that that chair might
00:43:40 move the recliner moving just not use it
00:43:43 at all or just remember the core
00:43:47 information through recall rehearsal so
00:43:48 it's not an issue right because I never
00:43:50 want to have to go back to a Memory
00:43:51 Palace to recall that word ever again I
00:43:53 want it in long-term memory so you can
00:43:57 get really into connections but I think
00:44:00 the ideal the nepu ultra if you will is
00:44:04 to not have connections at all unless
00:44:06 they're just happening happening
00:44:07 naturally due to the way the Memory
00:44:09 Palace is another thing that we should
00:44:11 talk about is people ask well how can I
00:44:13 clean out a Memory Palace I used to do
00:44:15 this a lot I'd get a broom sweeping out
00:44:16 the associations I'd get the mops that
00:44:19 Mickey Mouse has in Fantasia and have
00:44:21 them washing out memory pales this
00:44:24 really just seemed ultimately to me to
00:44:27 be a waste of time relative to just
00:44:30 having multiple memory palaces using
00:44:32 them with recall rehearsal to get the
00:44:34 information into long-term memory and
00:44:35 then going on to more memory palaces
00:44:37 there's so much space in the world the
00:44:40 key is to really make sure that you're
00:44:45 doing the art of memory in a way that
00:44:46 works for you so there's lots of advice
00:44:49 out there from all kinds of people and
00:44:52 you want to explore but try to make sure
00:44:54 that whatever you're exploring you
00:44:55 explore for long enough without muddying
00:44:58 the water of other people's ideas to get
00:45:00 a sense of one person's style so if you
00:45:03 pick this set of suggestions stick with
00:45:06 it for at least 90 days so your brain
00:45:08 can formulate the neuronal connections
00:45:11 that will help you really understand it
00:45:13 start wherever you are now and
00:45:16 understand that if you keep moving
00:45:19 around from this or that teacher and
00:45:21 getting shiny objects distracting you
00:45:24 over and over and over again you're
00:45:25 going to interrupt the for of any skill
00:45:28 by all means study this technique from
00:45:30 all the people you can find that's what
00:45:31 I did but I stuck with one approach for
00:45:36 long enough to really feel what that
00:45:38 individual was talking about then I
00:45:41 added different ideas and worked with
00:45:43 those there's a key example I can share
00:45:46 with you about this I did this for years
00:45:49 and years and years and I came across
00:45:50 one idea from Ron White we talked about
00:45:53 it in our discussion which you can watch
00:45:55 on my channel and listen to on the audio
00:45:58 magnetic marry method podcast and then I
00:46:02 just stuck with his Association or his
00:46:04 way of dealing with numbers relative to
00:46:07 having a body a number-based body Memory
00:46:09 Palace and I've been using it ever since
00:46:12 but I I paid the due diligence so to
00:46:14 speak by actually not doing anything
00:46:17 else for enough time to nail it to make
00:46:21 it really really useful and that's what
00:46:24 I suggest that you do too so it's not an
00:46:27 ego thing where I'm saying hey if you're
00:46:29 going to do my training stick with it
00:46:30 for at least 90 days it's a
00:46:32 neuroscientific thing and it's welln
00:46:35 it's well established in all kinds of
00:46:36 Science and I practice it myself not
00:46:38 just in memory but also in meditation
00:46:41 when I came across the Gary Weber
00:46:43 approach to memory based meditation
00:46:45 memorizing Sanskrit I stuck with it
00:46:48 before I started to bring in other ideas
00:46:51 in order to allow myself to really feel
00:46:53 it and knowing what I know about how
00:46:55 memory formation Works relative to Habit
00:46:57 formation letting that time build a
00:47:01 foundation before adding the next strata
00:47:04 on top of it so that the next technique
00:47:08 had a foundation to settle upon right
00:47:12 this is going to be so much better for
00:47:15 you over the long term even if it's a
00:47:18 bit of a sacrifice in the short term you
00:47:21 will ultimately benefit more from other
00:47:24 teachings precisely because you have a
00:47:26 foundation upon which to base the other
00:47:29 teachings so go nuts but always always
00:47:33 always keep this in mind it's been so
00:47:35 useful for me I hope it'll be useful for
00:47:37 you and the other thing about this that
00:47:40 I think is really really important to
00:47:42 understand and to allow yourself to
00:47:44 absorb deeply is the principle in memory
00:47:48 science of context dependence or state
00:47:51 dependent memory and get to that in a
00:47:53 second but thank you for being here
00:47:55 thanks for hitting that thumbs up thanks
00:47:56 for getting sub subscribed if you're new
00:47:58 here leaving your comments sharing this
00:48:00 around and if you'd like to go even
00:48:02 further into some of the issues around
00:48:04 the Memory Palace technique as such but
00:48:06 also in terms of reusing memory palaces
00:48:09 and using memory palaces specifically
00:48:11 for studying things like languages and
00:48:13 so forth make sure to go to Magnetic
00:48:16 method.com YT I've got four videos there
00:48:19 that are going to take you deeper into
00:48:21 the fundamentals of creating well-formed
00:48:23 memory palaces there's more examples
00:48:25 from students PDF worksheets that you
00:48:27 can complete that make everything faster
00:48:29 for you at magnetic method.com
00:48:33 YT now here's the thing and is you can't
00:48:37 always use this but when you can it is
00:48:39 so wonderful and Powerful to do if
00:48:43 you're going to have an exam and you can
00:48:45 find out where that exam is taking place
00:48:48 use that room as one of your memory
00:48:50 palaces for the
00:48:52 exam because this will give you better
00:48:55 context dependent memory you're going to
00:48:58 be in the space that you used your
00:49:00 memory Palace for now again it's not
00:49:02 always possible but there's also the
00:49:05 alternative which I used a lot when I
00:49:07 was at York University and I used it
00:49:10 again when I did a ma in Switzerland is
00:49:13 to use the campus use the area where
00:49:16 you're studying as a Memory Palace so
00:49:17 it's close enough so even if you can't
00:49:20 use the room where you're taking an exam
00:49:22 as your memory Palace you can use the
00:49:24 surrounding area which will give you a
00:49:26 little bit of that context dependence or
00:49:28 state dependent memory you will be in
00:49:30 the context of where you need to recall
00:49:34 the information you'll be in the state
00:49:36 and that will give you an extra boost of
00:49:38 recall I don't know exactly why it works
00:49:41 but I think it works probably just quite
00:49:43 in a common sense way you're in the
00:49:45 context you're in that state but the
00:49:48 trick still is to master the
00:49:49 fundamentals first so that you enjoy
00:49:52 smooth sailing with all of the five
00:49:55 pneumonic systems and that you're able
00:49:58 to use them as if they were just one
00:50:00 move even though they are built from
00:50:02 several moves sharpen that axe study the
00:50:06 individual moves of chopping the axe and
00:50:09 you will be able to cut down the forest
00:50:10 of anything you need to study in minimal
00:50:13 time with minimal effort and maximum
00:50:16 results that's what the magnetic mry
00:50:18 method is all about thanks for joining
00:50:20 me I hope you found this useful I hope
00:50:21 you had it as fun to go through as I had
00:50:23 fun making it for you get subscribed if
00:50:26 you're not already hit that thumbs up
00:50:28 and until we have a chance to speak

Copy Summary Copy Prompt

identifier: 1222

model: gemini-2.0-flash-exp| input-price: 0.1 output-price: 0.4 max-context-length: 128_000

host: 78.131.91.175

https://youtu.be/VodyHdQHkoE?si=jHLeM4cMWeJNaf2C

include_comments: None

include_timestamps: 1

include_glossary: None

output_language: en

cost: 0.5

*Unlocking Memory and Creativity with Mind Mapping*

* *0:00 Introduction to Mind Mapping:* Mind mapping is a simple system that maximizes comprehension, memory, and recall by organizing information around a central concept.
* *0:01 Key Mind Mapping Principles:* Mind maps involve a central idea with related sub-ideas radiating from it, often in a circular format. This structure enhances understanding and memorization.
* *0:01 Traditional Mind Mapping:* The speaker uses ancient historical contexts such as Leonardo DaVinci, Ross Quillian, and Tony Buzan to help provide context for those interested in understanding the background of traditional mind mapping. 
* *0:03 Tony Buzan's Influence:* Tony Buzan, a psychologist, popularized mind mapping with his emphasis on central images and radiating associations. He believed mind mapping enhances mental abilities.
* *0:04 Color and Flow:* Early mind maps often lack color and flow, hindering their effectiveness. The speaker found that adding color and flow to mind maps made them more engaging and useful.
* *0:04 Benefits of Mind Mapping:* Mind mapping aids in scripting videos, organizing ideas, and enhancing presentations.
* *0:05 Memorization Techniques:* Memorization involves connecting new information to existing knowledge, as demonstrated by the Greek tradition.
* *0:06 Active Learning:* Active learning involves creating mind maps by hand and personalizing them with images to improve recall and engagement.
* *0:07 Personalization:* Personalized mind maps are more effective because they resonate with the individual's unique perspective.
* *0:07 Scientific Basis:* Scientific experiments show that personalization and variety in learning enhance memorization.
* *0:07 Mind Mapping for Storytelling:* Mind mapping can be used for creating stories, novels, and developing characters by organizing plot points, character motivations, and themes.
* *0:11 Importance of Color:* The speaker uses three colors in their mind maps to help put pressure on the mind when radiating ideas from the center topic, allowing their mind to come back to the topic with focus.
* *0:11 Mind Mapping and Problem-Solving:* Mind mapping enhances focus and concentration, enabling quicker problem-solving and decision-making.
* *0:14 Software Independence:* Mind mapping doesn't require software, allowing for offline idea generation and problem-solving.
* *0:15 Roger Sperry's Research:* Dr. Roger Sperry's research suggests that mind mapping engages multiple parts of the brain, enhancing cognitive function.
* *0:17 Contrasting Mind Mapping Models:* Experimenting with different models allows for a diverse pattern that fits naturally. 
* *0:18 Whole Brain Activation:* Mind maps activate both hemispheres of the brain, improving comprehension and understanding.
* *0:19 Setting a Goal for Mind Mapping:* When creating a mind map, start with a specific goal, whether it's understanding something, telling a story, or memorizing information.
* *0:19 Techniques for Memorization:* For memorization, create a 12-hour clock face mind map with 12 words related to a topic, using colors to enhance memory.
* *0:22 Maximizing Digital Spaces:* Unlike physical maps, digital maps offer potentially unlimited space, allowing for more detailed organization.
* *0:22 Value of Limits:* Imposing limits in mind mapping can enhance creativity and focus.
* *0:24 Adhering to Rules:* Find a framework and follow the rules suggested by Tony Buzan to avoid getting stuck.
* *0:25 The 90-Day Rule:* Commit to practicing mind mapping for at least 90 days to form a habit and experience its benefits.
* *0:27 Overcoming Self-Doubt:* Addressing the self doubt of their viewers that they may have had to make it easier to use, create, and experiment mind maps.
* *0:27 Visual Reminders:* Creating mind maps that can be referred to visually helps remind and focus on your goals.
* *0:28 Gaining Confidence:* Mind mapping, combined with memory journals, can help build confidence and clarity.


I used gemini-2.0-flash-exp| input-price: 0.1 output-price: 0.4 max-context-length: 128_000 on rocketrecap dot com to summarize the transcript.
Cost (if I didn't use the free tier): $0.50
Input tokens: 17118
Output tokens: 881

Unlocking Memory and Creativity with Mind Mapping

• 0:00 Introduction to Mind Mapping: Mind mapping is a simple system that maximizes comprehension, memory, and recall by organizing information around a central concept.
• 0:01 Key Mind Mapping Principles: Mind maps involve a central idea with related sub-ideas radiating from it, often in a circular format. This structure enhances understanding and memorization.
• 0:01 Traditional Mind Mapping: The speaker uses ancient historical contexts such as Leonardo DaVinci, Ross Quillian, and Tony Buzan to help provide context for those interested in understanding the background of traditional mind mapping.
• 0:03 Tony Buzan's Influence: Tony Buzan, a psychologist, popularized mind mapping with his emphasis on central images and radiating associations. He believed mind mapping enhances mental abilities.
• 0:04 Color and Flow: Early mind maps often lack color and flow, hindering their effectiveness. The speaker found that adding color and flow to mind maps made them more engaging and useful.
• 0:04 Benefits of Mind Mapping: Mind mapping aids in scripting videos, organizing ideas, and enhancing presentations.
• 0:05 Memorization Techniques: Memorization involves connecting new information to existing knowledge, as demonstrated by the Greek tradition.
• 0:06 Active Learning: Active learning involves creating mind maps by hand and personalizing them with images to improve recall and engagement.
• 0:07 Personalization: Personalized mind maps are more effective because they resonate with the individual's unique perspective.
• 0:07 Scientific Basis: Scientific experiments show that personalization and variety in learning enhance memorization.
• 0:07 Mind Mapping for Storytelling: Mind mapping can be used for creating stories, novels, and developing characters by organizing plot points, character motivations, and themes.
• 0:11 Importance of Color: The speaker uses three colors in their mind maps to help put pressure on the mind when radiating ideas from the center topic, allowing their mind to come back to the topic with focus.
• 0:11 Mind Mapping and Problem-Solving: Mind mapping enhances focus and concentration, enabling quicker problem-solving and decision-making.
• 0:14 Software Independence: Mind mapping doesn't require software, allowing for offline idea generation and problem-solving.
• 0:15 Roger Sperry's Research: Dr. Roger Sperry's research suggests that mind mapping engages multiple parts of the brain, enhancing cognitive function.
• 0:17 Contrasting Mind Mapping Models: Experimenting with different models allows for a diverse pattern that fits naturally.
• 0:18 Whole Brain Activation: Mind maps activate both hemispheres of the brain, improving comprehension and understanding.
• 0:19 Setting a Goal for Mind Mapping: When creating a mind map, start with a specific goal, whether it's understanding something, telling a story, or memorizing information.
• 0:19 Techniques for Memorization: For memorization, create a 12-hour clock face mind map with 12 words related to a topic, using colors to enhance memory.
• 0:22 Maximizing Digital Spaces: Unlike physical maps, digital maps offer potentially unlimited space, allowing for more detailed organization.
• 0:22 Value of Limits: Imposing limits in mind mapping can enhance creativity and focus.
• 0:24 Adhering to Rules: Find a framework and follow the rules suggested by Tony Buzan to avoid getting stuck.
• 0:25 The 90-Day Rule: Commit to practicing mind mapping for at least 90 days to form a habit and experience its benefits.
• 0:27 Overcoming Self-Doubt: Addressing the self doubt of their viewers that they may have had to make it easier to use, create, and experiment mind maps.
• 0:27 Visual Reminders: Creating mind maps that can be referred to visually helps remind and focus on your goals.
• 0:28 Gaining Confidence: Mind mapping, combined with memory journals, can help build confidence and clarity.

Below, I will provide input for an example video (comprising of title, description, and transcript, in this order) and the corresponding summary I expect. Afterward, I will provide a new transcript that I want you to summarize in the same format. 

**Please summarize the transcript in a self-contained bullet list format.** Include starting timestamps, important details and key takeaways. 

Example Input: 
Fluidigm Polaris Part 2- illuminator and camera
mikeselectricstuff
131K subscribers
Subscribed
369
Share
Download
Clip
Save
5,857 views Aug 26, 2024
Fluidigm Polaris part 1 : • Fluidigm Polaris (Part 1) - Biotech g...
Ebay listings: https://www.ebay.co.uk/usr/mikeselect...
Merch https://mikeselectricstuff.creator-sp...
Transcript
Follow along using the transcript.
Show transcript
mikeselectricstuff
131K subscribers
Videos
About
Support on Patreon
40 Comments
@robertwatsonbath
6 hours ago
Thanks Mike. Ooof! - with the level of bodgery going on around 15:48 I think shame would have made me do a board re spin, out of my own pocket if I had to.
1
Reply
@Muonium1
9 hours ago
The green LED looks different from the others and uses phosphor conversion because of the "green gap" problem where green InGaN emitters suffer efficiency droop at high currents. Phosphide based emitters don't start becoming efficient until around 600nm so also can't be used for high power green emitters. See the paper and plot by Matthias Auf der Maur in his 2015 paper on alloy fluctuations in InGaN as the cause of reduced external quantum efficiency at longer (green) wavelengths.
4
Reply
1 reply
@tafsirnahian669
10 hours ago (edited)
Can this be used as an astrophotography camera?
Reply
mikeselectricstuff
·
1 reply
@mikeselectricstuff
6 hours ago
Yes, but may need a shutter to avoid light during readout
Reply
@2010craggy
11 hours ago
Narrowband filters we use in Astronomy (Astrophotography) are sided- they work best passing light in one direction so I guess the arrows on the filter frames indicate which way round to install them in the filter wheel.
1
Reply
@vitukz
12 hours ago
A mate with Channel @extractions&ire could use it
2
Reply
@RobertGallop
19 hours ago
That LED module says it can go up to 28 amps!!! 21 amps for 100%. You should see what it does at 20 amps!
Reply
@Prophes0r
19 hours ago
I had an "Oh SHIT!" moment when I realized that the weird trapezoidal shape of that light guide was for keystone correction of the light source.
Very clever.
6
Reply
@OneBiOzZ
20 hours ago
given the cost of the CCD you think they could have run another PCB for it
9
Reply
@tekvax01
21 hours ago
$20 thousand dollars per minute of run time!
1
Reply
@tekvax01
22 hours ago
"We spared no expense!" John Hammond Jurassic Park.
*(that's why this thing costs the same as a 50-seat Greyhound Bus coach!)
Reply
@florianf4257
22 hours ago
The smearing on the image could be due to the fact that you don't use a shutter, so you see brighter stripes under bright areas of the image as you still iluminate these pixels while the sensor data ist shifted out towards the top. I experienced this effect back at university with a LN-Cooled CCD for Spectroscopy. The stripes disapeared as soon as you used the shutter instead of disabling it in the open position (but fokussing at 100ms integration time and continuous readout with a focal plane shutter isn't much fun).
12
Reply
mikeselectricstuff
·
1 reply
@mikeselectricstuff
12 hours ago
I didn't think of that, but makes sense
2
Reply
@douro20
22 hours ago (edited)
The red LED reminds me of one from Roithner Lasertechnik. I have a Symbol 2D scanner which uses two very bright LEDs from that company, one red and one red-orange. The red-orange is behind a lens which focuses it into an extremely narrow beam.
1
Reply
@RicoElectrico
23 hours ago
PFG is Pulse Flush Gate according to the datasheet.
Reply
@dcallan812
23 hours ago
Very interesting. 2x
Reply
@littleboot_
1 day ago
Cool interesting device
Reply
@dav1dbone
1 day ago
I've stripped large projectors, looks similar, wonder if some of those castings are a magnesium alloy?
Reply
@kevywevvy8833
1 day ago
ironic that some of those Phlatlight modules are used in some of the cheapest disco lights.
1
Reply
1 reply
@bill6255
1 day ago
Great vid - gets right into subject in title, its packed with information, wraps up quickly. Should get a YT award! imho
3
Reply
@JAKOB1977
1 day ago (edited)
The whole sensor module incl. a 5 grand 50mpix sensor for 49 £.. highest bid atm
Though also a limited CCD sensor, but for the right buyer its a steal at these relative low sums.
Architecture Full Frame CCD (Square Pixels)
Total Number of Pixels 8304 (H) × 6220 (V) = 51.6 Mp
Number of Effective Pixels 8208 (H) × 6164 (V) = 50.5 Mp
Number of Active Pixels 8176 (H) × 6132 (V) = 50.1 Mp
Pixel Size 6.0 m (H) × 6.0 m (V)
Active Image Size 49.1 mm (H) × 36.8 mm (V)
61.3 mm (Diagonal),
645 1.1x Optical Format
Aspect Ratio 4:3
Horizontal Outputs 4
Saturation Signal 40.3 ke−
Output Sensitivity 31 V/e−
Quantum Efficiency
KAF−50100−CAA
KAF−50100−AAA
KAF−50100−ABA (with Lens)
22%, 22%, 16% (Peak R, G, B)
25%
62%
Read Noise (f = 18 MHz) 12.5 e−
Dark Signal (T = 60°C) 42 pA/cm2
Dark Current Doubling Temperature 5.7°C
Dynamic Range (f = 18 MHz) 70.2 dB
Estimated Linear Dynamic Range
(f = 18 MHz)
69.3 dB
Charge Transfer Efficiency
Horizontal
Vertical
0.999995
0.999999
Blooming Protection
(4 ms Exposure Time)
800X Saturation Exposure
Maximum Date Rate 18 MHz
Package Ceramic PGA
Cover Glass MAR Coated, 2 Sides or
Clear Glass
Features
• TRUESENSE Transparent Gate Electrode
for High Sensitivity
• Ultra-High Resolution
• Board Dynamic Range
• Low Noise Architecture
• Large Active Imaging Area
Applications
• Digitization
• Mapping/Aerial
• Photography
• Scientific
Thx for the tear down Mike, always a joy
Reply
@martinalooksatthings
1 day ago
15:49 that is some great bodging on of caps, they really didn't want to respin that PCB huh
8
Reply
@RhythmGamer
1 day ago
Was depressed today and then a new mike video dropped and now I’m genuinely happy to get my tear down fix
1
Reply
@dine9093
1 day ago (edited)
Did you transfrom into Mr Blobby for a moment there?
2
Reply
@NickNorton
1 day ago
Thanks Mike. Your videos are always interesting.
5
Reply
@KeritechElectronics
1 day ago
Heavy optics indeed... Spare no expense, cost no object. Splendid build quality. The CCD is a thing of beauty!
1
Reply
@YSoreil
1 day ago
The pricing on that sensor is about right, I looked in to these many years ago when they were still in production since it's the only large sensor you could actually buy. Really cool to see one in the wild.
2
Reply
@snik2pl
1 day ago
That leds look like from led projector
Reply
@vincei4252
1 day ago
TDI = Time Domain Integration ?
1
Reply
@wolpumba4099
1 day ago (edited)
Maybe the camera should not be illuminated during readout.
From the datasheet of the sensor (Onsemi): saturation 40300 electrons, read noise 12.5 electrons per pixel @ 18MHz (quite bad). quantum efficiency 62% (if it has micro lenses), frame rate 1 Hz. lateral overflow drain to prevent blooming protects against 800x (factor increases linearly with exposure time) saturation exposure (32e6 electrons per pixel at 4ms exposure time), microlens has +/- 20 degree acceptance angle
i guess it would be good for astrophotography
4
Reply
@txm100
1 day ago (edited)
Babe wake up a new mikeselectricstuff has dropped!
9
Reply
@vincei4252
1 day ago
That looks like a finger-lakes filter wheel, however, for astronomy they'd never use such a large stepper.
1
Reply
@MRooodddvvv
1 day ago
yaaaaay ! more overcomplicated optical stuff !
4
Reply
1 reply
@NoPegs
1 day ago
He lives!
11
Reply
1 reply
Transcript
0:00
so I've stripped all the bits of the
0:01
optical system so basically we've got
0:03
the uh the camera
0:05
itself which is mounted on this uh very
0:09
complex
0:10
adjustment thing which obviously to set
0:13
you the various tilt and uh alignment
0:15
stuff then there's two of these massive
0:18
lenses I've taken one of these apart I
0:20
think there's something like about eight
0:22
or nine Optical elements in here these
0:25
don't seem to do a great deal in terms
0:26
of electr magnification they're obiously
0:28
just about getting the image to where it
0:29
uh where it needs to be just so that
0:33
goes like that then this Optical block I
0:36
originally thought this was made of some
0:37
s crazy heavy material but it's just
0:39
really the sum of all these Optical bits
0:41
are just ridiculously heavy those lenses
0:43
are about 4 kilos each and then there's
0:45
this very heavy very solid um piece that
0:47
goes in the middle and this is so this
0:49
is the filter wheel assembly with a
0:51
hilariously oversized steper
0:53
motor driving this wheel with these very
0:57
large narrow band filters so we've got
1:00
various different shades of uh
1:03
filters there five Al together that
1:06
one's actually just showing up a silver
1:07
that's actually a a red but fairly low
1:10
transmission orangey red blue green
1:15
there's an excess cover on this side so
1:16
the filters can be accessed and changed
1:19
without taking anything else apart even
1:21
this is like ridiculous it's like solid
1:23
aluminium this is just basically a cover
1:25
the actual wavelengths of these are um
1:27
488 525 570 630 and 700 NM not sure what
1:32
the suffix on that perhaps that's the uh
1:34
the width of the spectral line say these
1:37
are very narrow band filters most of
1:39
them are you very little light through
1:41
so it's still very tight narrow band to
1:43
match the um fluoresence of the dies
1:45
they're using in the biochemical process
1:48
and obviously to reject the light that's
1:49
being fired at it from that Illuminator
1:51
box and then there's a there's a second
1:53
one of these lenses then the actual sort
1:55
of samples below that so uh very serious
1:58
amount of very uh chunky heavy Optics
2:01
okay let's take a look at this light
2:02
source made by company Lumen Dynamics
2:04
who are now part of
2:06
excelitas self-contained unit power
2:08
connector USB and this which one of the
2:11
Cable Bundle said was a TTL interface
2:14
USB wasn't used in uh the fluid
2:17
application output here and I think this
2:19
is an input for um light feedback I
2:21
don't if it's regulated or just a measur
2:23
measurement facility and the uh fiber
2:27
assembly
2:29
Square Inlet there and then there's two
2:32
outputs which have uh lens assemblies
2:35
and this small one which goes back into
2:37
that small Port just Loops out of here
2:40
straight back in So on this side we've
2:42
got the electronics which look pretty
2:44
straightforward we've got a bit of power
2:45
supply stuff over here and we've got
2:48
separate drivers for each wavelength now
2:50
interesting this is clearly been very
2:52
specifically made for this application
2:54
you I was half expecting like say some
2:56
generic drivers that could be used for a
2:58
number of different things but actually
3:00
literally specified the exact wavelength
3:02
on the PCB there is provision here for
3:04
385 NM which isn't populated but this is
3:07
clearly been designed very specifically
3:09
so these four drivers look the same but
3:10
then there's two higher power ones for
3:12
575 and
3:14
520 a slightly bigger heat sink on this
3:16
575 section there a p 24 which is
3:20
providing USB interface USB isolator the
3:23
USB interface just presents as a comport
3:26
I did have a quick look but I didn't
3:27
actually get anything sensible um I did
3:29
dump the Pi code out and there's a few
3:31
you a few sort of commands that you
3:32
could see in text but I didn't actually
3:34
manage to get it working properly I
3:36
found some software for related version
3:38
but it didn't seem to want to talk to it
3:39
but um I say that wasn't used for the
3:41
original application it might be quite
3:42
interesting to get try and get the Run
3:44
hours count out of it and the TTL
3:46
interface looks fairly straightforward
3:48
we've got positions for six opto
3:50
isolators but only five five are
3:52
installed so that corresponds with the
3:54
unused thing so I think this hopefully
3:56
should be as simple as just providing a
3:57
ttrl signal for each color to uh enable
4:00
it a big heat sink here which is there I
4:03
think there's like a big S of metal
4:04
plate through the middle of this that
4:05
all the leads are mounted on the other
4:07
side so this is heat sinking it with a
4:09
air flow from a uh just a fan in here
4:13
obviously don't have the air flow
4:14
anywhere near the Optics so conduction
4:17
cool through to this plate that's then
4:18
uh air cooled got some pots which are
4:21
presumably power
4:22
adjustments okay let's take a look at
4:24
the other side which is uh much more
4:27
interesting see we've got some uh very
4:31
uh neatly Twisted cable assemblies there
4:35
a bunch of leads so we've got one here
4:37
475 up here 430 NM 630 575 and 520
4:44
filters and dcro mirrors a quick way to
4:48
see what's white is if we just shine
4:49
some white light through
4:51
here not sure how it is is to see on the
4:54
camera but shining white light we do
4:55
actually get a bit of red a bit of blue
4:57
some yellow here so the obstacle path
5:00
575 it goes sort of here bounces off
5:03
this mirror and goes out the 520 goes
5:07
sort of down here across here and up
5:09
there 630 goes basically straight
5:13
through
5:15
430 goes across there down there along
5:17
there and the 475 goes down here and
5:20
left this is the light sensing thing
5:22
think here there's just a um I think
5:24
there a photo diode or other sensor
5:26
haven't actually taken that off and
5:28
everything's fixed down to this chunk of
5:31
aluminium which acts as the heat
5:32
spreader that then conducts the heat to
5:33
the back side for the heat
5:35
sink and the actual lead packages all
5:38
look fairly similar except for this one
5:41
on the 575 which looks quite a bit more
5:44
substantial big spay
5:46
Terminals and the interface for this
5:48
turned out to be extremely simple it's
5:50
literally a 5V TTL level to enable each
5:54
color doesn't seem to be any tensity
5:56
control but there are some additional
5:58
pins on that connector that weren't used
5:59
in the through time thing so maybe
6:01
there's some extra lines that control
6:02
that I couldn't find any data on this uh
6:05
unit and the um their current product
6:07
range is quite significantly different
6:09
so we've got the uh blue these
6:13
might may well be saturating the camera
6:16
so they might look a bit weird so that's
6:17
the 430
6:18
blue the 575
6:24
yellow uh
6:26
475 light blue
6:29
the uh 520
6:31
green and the uh 630 red now one
6:36
interesting thing I noticed for the
6:39
575 it's actually it's actually using a
6:42
white lead and then filtering it rather
6:44
than using all the other ones are using
6:46
leads which are the fundamental colors
6:47
but uh this is actually doing white and
6:50
it's a combination of this filter and
6:52
the dichroic mirrors that are turning to
6:55
Yellow if we take the filter out and a
6:57
lot of the a lot of the um blue content
7:00
is going this way the red is going
7:02
straight through these two mirrors so
7:05
this is clearly not reflecting much of
7:08
that so we end up with the yellow coming
7:10
out of uh out of there which is a fairly
7:14
light yellow color which you don't
7:16
really see from high intensity leads so
7:19
that's clearly why they've used the
7:20
white to uh do this power consumption of
7:23
the white is pretty high so going up to
7:25
about 2 and 1 half amps on that color
7:27
whereas most of the other colors are
7:28
only drawing half an amp or so at 24
7:30
volts the uh the green is up to about
7:32
1.2 but say this thing is uh much
7:35
brighter and if you actually run all the
7:38
colors at the same time you get a fairly
7:41
reasonable um looking white coming out
7:43
of it and one thing you might just be
7:45
out to notice is there is some sort
7:46
color banding around here that's not
7:49
getting uh everything s completely
7:51
concentric and I think that's where this
7:53
fiber optic thing comes
7:58
in I'll
8:00
get a couple of Fairly accurately shaped
8:04
very sort of uniform color and looking
8:06
at What's um inside here we've basically
8:09
just got this Square Rod so this is
8:12
clearly yeah the lights just bouncing
8:13
off all the all the various sides to um
8:16
get a nice uniform illumination uh this
8:19
back bit looks like it's all potted so
8:21
nothing I really do to get in there I
8:24
think this is fiber so I have come
8:26
across um cables like this which are
8:27
liquid fill but just looking through the
8:30
end of this it's probably a bit hard to
8:31
see it does look like there fiber ends
8:34
going going on there and so there's this
8:36
feedback thing which is just obviously
8:39
compensating for the any light losses
8:41
through here to get an accurate
8:43
representation of uh the light that's
8:45
been launched out of these two
8:47
fibers and you see uh
8:49
these have got this sort of trapezium
8:54
shape light guides again it's like a
8:56
sort of acrylic or glass light guide
9:00
guess projected just to make the right
9:03
rectangular
9:04
shape and look at this Center assembly
9:07
um the light output doesn't uh change
9:10
whether you feed this in or not so it's
9:11
clear not doing any internal Clos Loop
9:14
control obviously there may well be some
9:16
facility for it to do that but it's not
9:17
being used in this
9:19
application and so this output just
9:21
produces a voltage on the uh outle
9:24
connector proportional to the amount of
9:26
light that's present so there's a little
9:28
diffuser in the back there
9:30
and then there's just some kind of uh
9:33
Optical sensor looks like a
9:35
chip looking at the lead it's a very
9:37
small package on the PCB with this lens
9:40
assembly over the top and these look
9:43
like they're actually on a copper
9:44
Metalized PCB for maximum thermal
9:47
performance and yeah it's a very small
9:49
package looks like it's a ceramic
9:51
package and there's a thermister there
9:53
for temperature monitoring this is the
9:56
475 blue one this is the 520 need to
9:59
Green which is uh rather different OB
10:02
it's a much bigger D with lots of bond
10:04
wise but also this looks like it's using
10:05
a phosphor if I shine a blue light at it
10:08
lights up green so this is actually a
10:10
phosphor conversion green lead which
10:12
I've I've come across before they want
10:15
that specific wavelength so they may be
10:17
easier to tune a phosphor than tune the
10:20
um semiconductor material to get the uh
10:23
right right wavelength from the lead
10:24
directly uh red 630 similar size to the
10:28
blue one or does seem to have a uh a
10:31
lens on top of it there is a sort of red
10:33
coloring to
10:35
the die but that doesn't appear to be
10:38
fluorescent as far as I can
10:39
tell and the white one again a little
10:41
bit different sort of much higher
10:43
current
10:46
connectors a makeer name on that
10:48
connector flot light not sure if that's
10:52
the connector or the lead
10:54
itself and obviously with the phosphor
10:56
and I'd imagine that phosphor may well
10:58
be tuned to get the maximum to the uh 5
11:01
cenm and actually this white one looks
11:04
like a St fairly standard product I just
11:06
found it in Mouse made by luminous
11:09
devices in fact actually I think all
11:11
these are based on various luminous
11:13
devices modules and they're you take
11:17
looks like they taking the nearest
11:18
wavelength and then just using these
11:19
filters to clean it up to get a precise
11:22
uh spectral line out of it so quite a
11:25
nice neat and um extreme
11:30
bright light source uh sure I've got any
11:33
particular use for it so I think this
11:35
might end up on
11:36
eBay but uh very pretty to look out and
11:40
without the uh risk of burning your eyes
11:43
out like you do with lasers so I thought
11:45
it would be interesting to try and
11:46
figure out the runtime of this things
11:48
like this we usually keep some sort
11:49
record of runtime cuz leads degrade over
11:51
time I couldn't get any software to work
11:52
through the USB face but then had a
11:54
thought probably going to be writing the
11:55
runtime periodically to the e s prom so
11:58
I just just scope up that and noticed it
12:00
was doing right every 5 minutes so I
12:02
just ran it for a while periodically
12:04
reading the E squ I just held the pick
12:05
in in reset and um put clip over to read
12:07
the square prom and found it was writing
12:10
one location per color every 5 minutes
12:12
so if one color was on it would write
12:14
that location every 5 minutes and just
12:16
increment it by one so after doing a few
12:18
tests with different colors of different
12:19
time periods it looked extremely
12:21
straightforward it's like a four bite
12:22
count for each color looking at the
12:24
original data that was in it all the
12:26
colors apart from Green were reading
12:28
zero and the green was reading four
12:30
indicating a total 20 minutes run time
12:32
ever if it was turned on run for a short
12:34
time then turned off that might not have
12:36
been counted but even so indicates this
12:37
thing wasn't used a great deal the whole
12:40
s process of doing a run can be several
12:42
hours but it'll only be doing probably
12:43
the Imaging at the end of that so you
12:46
wouldn't expect to be running for a long
12:47
time but say a single color for 20
12:50
minutes over its whole lifetime does
12:52
seem a little bit on the low side okay
12:55
let's look at the camera un fortunately
12:57
I managed to not record any sound when I
12:58
did this it's also a couple of months
13:00
ago so there's going to be a few details
13:02
that I've forgotten so I'm just going to
13:04
dub this over the original footage so um
13:07
take the lid off see this massive great
13:10
heat sink so this is a pel cool camera
13:12
we've got this blower fan producing a
13:14
fair amount of air flow through
13:16
it the connector here there's the ccds
13:19
mounted on the board on the
13:24
right this unplugs so we've got a bit of
13:27
power supply stuff on here
13:29
USB interface I think that's the Cyprus
13:32
microcontroller High speeded USB
13:34
interface there's a zyink spon fpga some
13:40
RAM and there's a couple of ATD
13:42
converters can't quite read what those
13:45
those are but anal
13:47
devices um little bit of bodgery around
13:51
here extra decoupling obviously they
13:53
have having some noise issues this is
13:55
around the ram chip quite a lot of extra
13:57
capacitors been added there
13:59
uh there's a couple of amplifiers prior
14:01
to the HD converter buffers or Andor
14:05
amplifiers taking the CCD
14:08
signal um bit more power spy stuff here
14:11
this is probably all to do with
14:12
generating the various CCD bias voltages
14:14
they uh need quite a lot of exotic
14:18
voltages next board down is just a
14:20
shield and an interconnect
14:24
boardly shielding the power supply stuff
14:26
from some the more sensitive an log
14:28
stuff
14:31
and this is the bottom board which is
14:32
just all power supply
14:34
stuff as you can see tons of capacitors
14:37
or Transformer in
14:42
there and this is the CCD which is a uh
14:47
very impressive thing this is a kf50 100
14:50
originally by true sense then codec
14:53
there ON
14:54
Semiconductor it's 50 megapixels uh the
14:58
only price I could find was this one
15:00
5,000 bucks and the architecture you can
15:03
see there actually two separate halves
15:04
which explains the Dual AZ converters
15:06
and two amplifiers it's literally split
15:08
down the middle and duplicated so it's
15:10
outputting two streams in parallel just
15:13
to keep the bandwidth sensible and it's
15:15
got this amazing um diffraction effects
15:18
it's got micro lenses over the pixel so
15:20
there's there's a bit more Optics going
15:22
on than on a normal
15:25
sensor few more bodges on the CCD board
15:28
including this wire which isn't really
15:29
tacked down very well which is a bit uh
15:32
bit of a mess quite a few bits around
15:34
this board where they've uh tacked
15:36
various bits on which is not super
15:38
impressive looks like CCD drivers on the
15:40
left with those 3 ohm um damping
15:43
resistors on the
15:47
output get a few more little bodges
15:50
around here some of
15:52
the and there's this separator the
15:54
silica gel to keep the moisture down but
15:56
there's this separator that actually
15:58
appears to be cut from piece of
15:59
antistatic
16:04
bag and this sort of thermal block on
16:06
top of this stack of three pel Cola
16:12
modules so as with any Stacks they get
16:16
um larger as they go back towards the
16:18
heat sink because each P's got to not
16:20
only take the heat from the previous but
16:21
also the waste heat which is quite
16:27
significant you see a little temperature
16:29
sensor here that copper block which
16:32
makes contact with the back of the
16:37
CCD and this's the back of the
16:40
pelas this then contacts the heat sink
16:44
on the uh rear there a few thermal pads
16:46
as well for some of the other power
16:47
components on this
16:51
PCB okay I've connected this uh camera
16:54
up I found some drivers on the disc that
16:56
seem to work under Windows 7 couldn't
16:58
get to install under Windows 11 though
17:01
um in the absence of any sort of lens or
17:03
being bothered to the proper amount I've
17:04
just put some f over it and put a little
17:06
pin in there to make a pinhole lens and
17:08
software gives a few options I'm not
17:11
entirely sure what all these are there's
17:12
obviously a clock frequency 22 MHz low
17:15
gain and with PFG no idea what that is
17:19
something something game programmable
17:20
Something game perhaps ver exposure
17:23
types I think focus is just like a
17:25
continuous grab until you tell it to
17:27
stop not entirely sure all these options
17:30
are obviously exposure time uh triggers
17:33
there ex external hardware trigger inut
17:35
you just trigger using a um thing on
17:37
screen so the resolution is 8176 by
17:40
6132 and you can actually bin those
17:42
where you combine multiple pixels to get
17:46
increased gain at the expense of lower
17:48
resolution down this is a 10sec exposure
17:51
obviously of the pin hole it's very uh
17:53
intensitive so we just stand still now
17:56
downloading it there's the uh exposure
17:59
so when it's
18:01
um there's a little status thing down
18:03
here so that tells you the um exposure
18:07
[Applause]
18:09
time it's this is just it
18:15
downloading um it is quite I'm seeing
18:18
quite a lot like smearing I think that I
18:20
don't know whether that's just due to
18:21
pixels overloading or something else I
18:24
mean yeah it's not it's not um out of
18:26
the question that there's something not
18:27
totally right about this camera
18:28
certainly was bodge wise on there um I
18:31
don't I'd imagine a camera like this
18:32
it's got a fairly narrow range of
18:34
intensities that it's happy with I'm not
18:36
going to spend a great deal of time on
18:38
this if you're interested in this camera
18:40
maybe for astronomy or something and
18:42
happy to sort of take the risk of it may
18:44
not be uh perfect I'll um I think I'll
18:47
stick this on eBay along with the
18:48
Illuminator I'll put a link down in the
18:50
description to the listing take your
18:52
chances to grab a bargain so for example
18:54
here we see this vertical streaking so
18:56
I'm not sure how normal that is this is
18:58
on fairly bright scene looking out the
19:02
window if I cut the exposure time down
19:04
on that it's now 1 second
19:07
exposure again most of the image
19:09
disappears again this is looks like it's
19:11
possibly over still overloading here go
19:14
that go down to say say quarter a
19:16
second so again I think there might be
19:19
some Auto gain control going on here um
19:21
this is with the PFG option let's try
19:23
turning that off and see what
19:25
happens so I'm not sure this is actually
19:27
more streaking or which just it's
19:29
cranked up the gain all the dis display
19:31
gray scale to show what um you know the
19:33
range of things that it's captured
19:36
there's one of one of 12 things in the
19:38
software there's um you can see of you
19:40
can't seem to read out the temperature
19:42
of the pelta cooler but you can set the
19:44
temperature and if you said it's a
19:46
different temperature you see the power
19:48
consumption jump up running the cooler
19:50
to get the temperature you requested but
19:52
I can't see anything anywhere that tells
19:54
you whether the cool is at the at the
19:56
temperature other than the power
19:57
consumption going down and there's no
19:59
temperature read out
20:03
here and just some yeah this is just
20:05
sort of very basic software I'm sure
20:07
there's like an API for more
20:09
sophisticated
20:10
applications but so if you know anything
20:12
more about these cameras please um stick
20:14
in the
20:15
comments um incidentally when I was
20:18
editing I didn't notice there was a bent
20:19
pin on the um CCD but I did fix that
20:22
before doing these tests and also
20:24
reactivated the um silica gel desicant
20:26
cuz I noticed it was uh I was getting
20:28
bit of condensation on the window but um
20:31
yeah so a couple of uh interesting but
20:34
maybe not particularly uh useful pieces
20:37
of Kit except for someone that's got a
20:38
very specific use so um I'll stick a
20:42
I'll stick these on eBay put a link in
20:44
the description and say hopefully
20:45
someone could actually make some uh good
20:47
use of these things
Example Output:
**Exploring the Fluidigm Polaris: A Detailed Look at its High-End Optics and Camera System**

* **0:00 High-End Optics:** The system utilizes heavy, high-quality lenses and mirrors for precise imaging, weighing around 4 kilos each.
* **0:49 Narrow Band Filters:** A filter wheel with five narrow band filters (488, 525, 570, 630, and 700 nm) ensures accurate fluorescence detection and rejection of excitation light. 
* **2:01 Customizable Illumination:** The Lumen Dynamics light source offers five individually controllable LED wavelengths (430, 475, 520, 575, 630 nm) with varying power outputs. The 575nm yellow LED is uniquely achieved using a white LED with filtering.
* **3:45 TTL Control:**  The light source is controlled via a simple TTL interface, enabling easy on/off switching for each LED color.
* **12:55 Sophisticated Camera:**  The system includes a 50-megapixel Kodak KAI-50100 CCD camera with a Peltier cooling system for reduced noise.
* **14:54 High-Speed Data Transfer:** The camera features dual analog-to-digital converters to manage the high data throughput of the 50-megapixel sensor, which is effectively two 25-megapixel sensors operating in parallel.
* **18:11 Possible Issues:** The video creator noted some potential issues with the camera, including image smearing. 
* **18:11 Limited Dynamic Range:** The camera's sensor has a limited dynamic range, making it potentially challenging to capture scenes with a wide range of brightness levels.
* **11:45 Low Runtime:** Internal data suggests the system has seen minimal usage, with only 20 minutes of recorded runtime for the green LED.
* **20:38 Availability on eBay:** Both the illuminator and camera are expected to be listed for sale on eBay.
Here is the real transcript. Please summarize it: 
00:00:00 and overwhelming way that often led me to
00:00:06 I had produced from my mind until I met a
00:00:11 as passionate about my mapping as I am about
00:00:18 improved rapidly.
00:00:22 non-acting some of the things from one powerful
00:00:28 Dr.
00:00:33 Thanks for joining me to talk about mind mapping,
00:00:37 Can it help you improve your memory, your
00:00:41 yes to all those things, but there's even
00:00:46 And there's even more so if you like all things
00:00:49 learning and remembering as fast as possible,
00:00:54 up and let's go because mind mapping is so
00:01:00 And I know you're going to love some of the
00:01:04 found out along the way.
00:01:07 let's get a definition going. It's a simple
00:01:12 at least on a screen that allows you to maximize
00:01:20 recall the information to do this mind maps
00:01:26 then they elaborate that concept typically
00:01:33 in space.
00:01:37 be in a circular format. But the idea is is
00:01:41 sense of sub ideas coming from a central idea
00:01:48 about what that central idea is and to enhance
00:01:56 Some people credit the very earliest appearance
00:02:01 the philosopher porphyry of rose, what a great
00:02:07 Now, it also shows up in the work of Remo
00:02:10 up with Leonardo DaVinci and it shows up really
00:02:16 how you want to define mind map, because even
00:02:20 movie is a central concept.
00:02:25 with comic book drawings and so forth, they
00:02:30 However, that's not generally what we mean,
00:02:34 like. They are literally a central idea that
00:02:39 structure in order to maximize comprehension
00:02:46 and Ross Quillian took what they were doing
00:02:51 And they produced a thing that they called
00:02:55 Buzan, who I believe was working as a psychological
00:03:00 of having a central image and radiating out
00:03:06 not only into multiple books, but also onto
00:03:12 I believe it was Let's assume that your inner
00:03:17 bad. Tony Suzanne developed his idea through
00:03:24 mind map mastery, which was the final book.
00:03:29 he passed away. Unfortunately, and this has
00:03:34 this wonderful guide to refer to as a way
00:03:41 And he did a masterful job in mind map mastery.
00:03:46 if I can revert to first name basis, cause
00:03:50 of the mind emblem for outstanding contributions
00:03:54 One of his ideas was that mind mapping helped
00:03:59 why the warrior of the mind emblem is a brain
00:04:06 warriors of the mind, which I believe is enabled
00:04:12 And it has certainly helped me. And I doubted
00:04:17 particular rules, it was going to somehow
00:04:21 you could mine maps and Tony's criticism of
00:04:27 when you dig into it because a lot of them
00:04:33 They're devoid of flow. They're devoid of
00:04:37 you both in creating them and then later looking
00:04:43 And that's the problem with my early mindmaps
00:04:46 of color, devoid of flow.
00:04:50 how that I had tried to cram so much stuff
00:04:55 I got a lot more out of both creating them
00:04:59 being able to implement and put the ideas
00:05:04 And in fact, most of my videos ever since
00:05:09 them together, either for scripting them or
00:05:14 from mind maps and using a mind map to help
00:05:19 as presenting from mine maps.
00:05:25 However, you could always have a mind map
00:05:29 to others.
00:05:33 mind map, the problem is, is that we've been
00:05:37 all now.
00:05:41 little wins word by word, by word or phrase
00:05:46 right from ancient Greek from tailies.
00:05:51 and I had to memorize the Greek and I had
00:05:55 opened up so much knowledge because I was
00:05:59 right.
00:06:02 it connects to another thing and it just opens
00:06:06 So really just memorizing anything is the
00:06:11 our first thing here, the Greek tradition.
00:06:16 powerful to know as much as you can about
00:06:21 this here.
00:06:25 teach and field chambers, teach mind mapping
00:06:29 Also from my maps up on the wall, projected
00:06:34 that were created to help teach my mapping.
00:06:38 into that sense of flow. And one thing that
00:06:42 of them with your own hand, which would then
00:06:47 which is a very intense and wonderful form
00:06:53 your mind.
00:06:57 hands because you have to recall that information
00:07:02 learn it a lot faster.
00:07:05 which is part of the science of active learning
00:07:12 your own by including images.
00:07:17 at examples of people's mind maps, they might
00:07:21 that's because they're personalized to the
00:07:26 And we know for many scientific experiments
00:07:29 the faster you're going to be able to learn.
00:07:33 the science of active learning is that it
00:07:37 requires personalization and variety, which
00:07:43 and memory techniques related because in order
00:07:47 they need to have you deeply engaging at a
00:07:51 in order for you to be able to just get more
00:07:58 One of my absolute favorite ways to use my
00:08:01 for creating stories such as novels.
00:08:06 I created, and it has a central image. That
00:08:11 And then the first little tendril here, tributary
00:08:18 the character. And then moving forward, I
00:08:22 out how they're going to work.
00:08:25 my way of expressing to myself. What's haunting
00:08:30 story, there's always something that's haunting
00:08:34 And then I may move through what's the dynamic
00:08:37 person? What is the driving ambition that
00:08:41 What is going to be the dilemma that they
00:08:44 take action on until a crisis happens that
00:08:48 And then they have to have this complete sort
00:08:52 to gather allies, et cetera.
00:08:56 as you know, what the rules apply are the
00:09:00 it all out, really in just 10 or 15 minutes.
00:09:06 ready to sit down. And right now the mind
00:09:09 a book that I'm about to release her.
00:09:13 the audio book now, which took a very long
00:09:16 But if you would like to get a preview of
00:09:20 go to magnetic memory, method.com for slash
00:09:25 of mine, it's not necessarily going to help
00:09:30 to teach you mind mapping, but it's going
00:09:33 memory abilities and his best friend helps
00:09:38 his job.
00:09:41 to him being able to solve the crime and save
00:09:47 Whoops, spoiler alert. Well, that's how most
00:09:50 a sample of that@magneticmemorymethod.com
00:09:54 be involved.
00:09:56 created a game to go with the special launch
00:10:01 people who have the sample first and foremost.
00:10:07 to magnetic memory, method.com for slash and
00:10:11 that helps me not have to have sponsors cause
00:10:16 And I hope you're going to like this book
00:10:18 It's going to show them how a detective who
00:10:23 figure out how to incorporate practice into
00:10:30 the story it starts to switch on.
00:10:35 memory techniques work. And then he's able
00:10:38 that anybody could do within a week or two
00:10:43 So there is verisimilitude in the novel to
00:10:47 If you were that detective and that's what
00:10:52 So again, magnetic memory method.com force
00:10:56 interested so far. I know you've emailed me
00:11:01 And I appreciate that interest to, to spend
00:11:04 I wasn't able to finish recording on schedule.
00:11:09 I might have to rerecord and it's still raining
00:11:13 So if you've been following the news in my
00:11:15 raining a lot and hopefully it won't rain
00:11:21 with so much dirt from the ears.
00:11:25 I hope you're going to love this story. It
00:11:29 map for the SQL.
00:11:32 and it was it, it was able to do that because
00:11:37 So mind mapping for storytelling, perhaps
00:11:41 might want to explore. If you love writing
00:11:46 Now, mind maps also have this incredible power
00:11:50 of course they do because you are isolating
00:11:57 I love to go out and mind map away from the
00:12:01 colors because that's part of the principles
00:12:06 And it really, really helps because what you
00:12:11 said that you should have three colors in
00:12:16 Must it be three? Well, I highly recommend
00:12:19 from doing this. And I generally try to always
00:12:23 And then what I like to do is rotate through
00:12:27 possible.
00:12:30 you know, beholden to them. If you don't have
00:12:35 do a color twice big deal, but just generally,
00:12:39 three colors, switching colors, and so forth.
00:12:44 thinking and why it works so well for me personally,
00:12:50 know that when we put pressure on, and then
00:12:54 to learn and remember more.
00:12:58 we're putting three colors and then we think,
00:13:02 you radiate out from that central idea, well,
00:13:06 Well, this is giving your mind a little bit
00:13:09 you come back to the topic.
00:13:13 on wax off, but it's like pressure on pressure
00:13:18 And this just seems to make the ideas flow
00:13:23 it puts you in a state of flow.
00:13:27 for the central image, and then I'm going
00:13:30 So you're not thinking too much. You're just
00:13:35 you proceed through the colors.
00:13:39 and focus. And whenever I'm stuck on an idea,
00:13:46 level of focus and concentration to the problem
00:13:51 Because if you are sitting there and you're,
00:13:56 you're, you know, walking around or you're
00:14:00 of possible ideas.
00:14:04 solution as quickly as you could. This, I
00:14:09 technique I like to use for decision-making
00:14:14 And I talk about that in my video on another
00:14:19 which is basically the rum on Moodle that
00:14:24 that the great memory master Giordano Bruno
00:14:28 So if you're interested in following with
00:14:30 video link in the description below.
00:14:35 generating lots of ideas in terms of, you
00:14:39 or your, you know, your retirement, all these
00:14:45 out.
00:14:47 it is having, you know, sort of a top-down
00:14:52 and cons.
00:14:55 center and you say the pros and the cons.
00:14:59 pros and cons list is also a great, there's
00:15:03 it with mind mapping and you can pluck different
00:15:09 to mind map them and get even more ideas.
00:15:15 mind mapping is that you don't need software.
00:15:19 softwares, but a lot of them, they wind up
00:15:23 this flow.
00:15:28 know about you, but I like to be off the computer
00:15:33 I don't want another digital solution for
00:15:38 operating with the non-digital world as possible,
00:15:45 those offline situations, which is precisely
00:15:51 solve problems and have solutions.
00:15:56 when we're in the real world, when we can't
00:16:01 that up.
00:16:04 or we want to be able to generate ideas spontaneously
00:16:08 So I think that mind mapping is just a lot
00:16:13 concentration solving problems, creating wonderful
00:16:21 to give, and then making it more interesting
00:16:25 to either reproduce our ideas in their own
00:16:30 not just these square grids or colored boxes
00:16:36 Now you may be wondering, is there any research
00:16:38 Well, Dr. Roger Sperry has done some research
00:16:44 on this.
00:16:47 parts of your brain. And it just stands to
00:16:52 putting three colors down in that central
00:16:58 to work in a different way.
00:17:01 a circle is going to cause you to think in
00:17:06 different parts of your brain, which is part
00:17:09 ways.
00:17:12 habit of going always in a clockwise circle,
00:17:18 down on you stiffens your ability.
00:17:23 counterclockwise fashion. And likewise, you
00:17:27 models like a spider diagram and so forth
00:17:32 contrast and comparison is itself a wonderful
00:17:37 So you don't always have to get locked down
00:17:39 that I really like this pattern and I revert
00:17:44 that feels very natural about it.
00:17:50 joy that comes from the way that it is activating
00:17:55 Sperry found in his research in terms of other
00:17:58 very found too, is that you get the best of
00:18:03 activated at the same time that you get your
00:18:08 So it's not as if just one half of the brain
00:18:11 very nicely, which is ultimately why my maps
00:18:17 comprehension and understanding when you're
00:18:22 remembering what you studied, because you
00:18:27 aspects, you recreating the ideas through
00:18:33 ways of representing that information.
00:18:39 about it, and you're able to see connections
00:18:43 that mind maps help you do.
00:18:47 and it would be your first mind map, then
00:18:51 of the ideas that Tony Buzan talked about.
00:18:56 when it comes to a particular goal. So the
00:19:00 mapping is, think, what is my goal?
00:19:05 to understand something? Or am I trying to
00:19:08 do something like tell a story, then you know,
00:19:13 And all I did was just have the central theme
00:19:17 rules. So this assumes that you know, how
00:19:22 figure out what those ideas are in a sequential
00:19:27 But if you want to maybe memorize something,
00:19:31 variables, whatever you think that might be,
00:19:37 Or if you're learning a language, you could
00:19:39 cooking in German, for example, and you put
00:19:45 Now three colors is the suggestion there.
00:19:51 put in your three colors, and then you start
00:19:56 And so, you know, at 12 o'clock, you would
00:20:01 you'd have another one.
00:20:05 up to 12 different words related to cooking.
00:20:11 cooking only 12, of course, but you have them
00:20:17 where 12 o'clock is, it's directly north of
00:20:23 and so forth, and you have 12 words related
00:20:29 And this is a wonderful way to bring the two
00:20:32 And of course you can change colors as you
00:20:37 you remember what that word was.
00:20:44 let me think of a German word for cooking,
00:20:51 spoon.
00:20:54 So you could imagine that spoon, maybe there's
00:21:01 And L O sorta sound and he's spooning. I dunno.
00:21:10 Now you got that first sound, so low flow,
00:21:16 truffles.
00:21:19 green and 12 o'clock is your green. Now they're
00:21:23 as you go later, what was that?
00:21:27 Oh, it was Rob Lowe, low plus truffles and
00:21:34 Now, this is assuming that I remembered the
00:21:39 would just proceed to one o'clock.
00:21:43 and fix it, and you can think of how that
00:21:47 Like you would have a medicine in the center,
00:21:51 maybe 12 of the negative side effects, but
00:21:56 ones, but the idea would be you don't try
00:21:59 circle it that around.
00:22:03 a perfect clockwise fashion, and you can also
00:22:08 PM and go that way as you please.
00:22:14 locked in space on that mind map, and you
00:22:19 because you simply think of the mind map.
00:22:25 at what, what, what was happening at 12 o'clock
00:22:29 And you can also use all of the recall rehearsal
00:22:33 So it's very, very wonderful way to use my
00:22:39 And you can think of how this can apply to
00:22:44 you don't have all the space for all the many
00:22:49 palace.
00:22:52 you going to remember 1200? All of which is
00:22:56 or digital, they do have the drawback of space
00:23:02 much stuff.
00:23:06 or theoretically unlimited space of a digital
00:23:10 it so overwhelmed with material that it would
00:23:15 And it would quickly get un-useful as my early
00:23:19 thing that Tony present impressed upon me
00:23:25 One night, he said, the rules will set you
00:23:29 you to think about rules and think about practicing,
00:23:36 rules.
00:23:40 so long because I use the rules that govern
00:23:44 a very, very long time, but let's not say
00:23:48 And you know, sometimes when you know, the
00:23:53 able to get so much more out of them by not
00:23:58 the wheel, not trying to constantly innovate,
00:24:03 And it's the same thing with mind mapping.
00:24:08 this framework, using some of the suggestions
00:24:12 more out of it.
00:24:16 focus on something like this as a discipline
00:24:21 at it.
00:24:23 because you set limits. And that is why people
00:24:30 is because they had limits.
00:24:35 drawings are all based upon particular formulas
00:24:41 forward in life, it may be because you just
00:24:46 to go back to what Tony Buzan said, the rules
00:24:53 The only thing is, is that you've got to find
00:24:56 Now, do you have to adhere to them forever
00:25:01 Amen? No, I don't think so. But what I do
00:25:02 day rule or Metivier's razor, which means
00:25:09 least 90 days and practiced it as a serious
00:25:15 and implement it for at least 90 days, then
00:25:21 that you tried.
00:25:24 very true. In so many cases, there are many,
00:25:30 be learned with any degree of that robustness
00:25:36 how it could possibly help you.
00:25:40 And in a lot of scientific research, we know
00:25:45 takes for a habit to form your brain needs
00:25:50 and the Myleene chiefs to start doing their
00:25:56 that enable you to have that habit carry on
00:26:02 There's so much more to say about mind mapping,
00:26:06 to use mind maps, I want to thank our channel
00:26:13 I want to thank everybody who has one of my
00:26:14 get a better memory and to experience so much
00:26:20 the mind map and memory palaces.
00:26:25 method masterclass called the camp mist formula
00:26:29 And I just want to thank everybody who already
00:26:33 to in the FAQ section, check it out.
00:26:37 ability to create my maps, that work as memory
00:26:45 all that works.
00:26:49 together and working in flow for one of the
00:26:55 passed level three in Mandarin.
00:26:59 when the world was about to go upside down.
00:27:04 that long ago.
00:27:07 especially appreciated because of being able
00:27:13 that I find people have talked to me about
00:27:21 and so forth is that they have self doubt.
00:27:26 my heart because it's really something that
00:27:32 the things that I'm so blessed that I was
00:27:36 and to have some of his feedback and suggestions
00:27:43 made for the future of my work.
00:27:48 It's so much of what a mind map on there has
00:27:52 And you know, it's a plan, but things happen.
00:27:57 on the plan, but more or less, I still focus
00:28:02 My map that I created, and it's just been
00:28:06 there something that can be referred to visually
00:28:10 it's a reminder of what you committed to do,
00:28:15 And this is really, really powerful because
00:28:18 than the plan itself. So I would highly recommend
00:28:24 mind mapping to gain more confidence, well,
00:28:30 additional set of tips and strategies.
00:28:36 my video on using a memory journal in combination
00:28:42 help create confidence and clarity and this
00:28:49 Now. You've got to do all three of the mind
00:28:54 to get the biggest possible benefits.
00:28:59 already and watch my video on using a memory

Copy Summary Copy Prompt