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seriously, it’s like 16 or 64 core to build semiconductors with say 3-8 leads per regionally addressable field effect transistor; I’m sure there’s a better way, but you could literally draw venn diagrams out of field effect transistor saturation
regions that flow into each other using 3-9 wires per semiconductor Enrichable addressable Venn (AV device “like it’s obviously not a transistor, it’s a more than 2 things compared (like comparing 3 or 4 things) multifield simultaneous logic
primitive device, call it an AV”

So anyway, genetic algorithms could make a whole bunch of AV devices, based on, perhaps incredibly, the most frequent logic that happens on the internet, and make a bunch of 3-9 lead field effect transistor AVs, and then find the most valuable energy
efficient ones that solve things the fastest.

Genetic algorithms can also I think work out how to wire AV devices/cells an an IC together even though they have 3-9 lead wires per AV cell/device if the genetic algorithm designer names oscilloscope-like waveforms they want as output at certain test
points; (can be square wave at oscilloscope hypothetical test points the genetic algorithm is optimizing for; it could even be like 3-5 levels of voltage per square wave), the main thing is, I think a Genetic algorithm could optimize making some kind of
oscilloscope output

Interestingly it’s (AV) not an analog computer, those are also awesome;


beyond parallel and serial is the simultaneous logic on/of NAND gates hooked to each other (or, at these notes a new AV device) to make a computer or automata; they aren’t doing things one at a time, they aren’t doing things at the same time; they
are doing things different than either of those. so automata like seed&rule (some automata do nonharvard nonTuring architecture computing) differ from parallel and serial as well, and are their own thing. saying they are branchy is as uncognizant as
saying numbers come in (1 or 2 or 3 or many) among some alleged group of people; Classes of automata complement the concept of a serial thing, a parallel thing, or have logic-span-of-definition difference than a noniterated logic primitive thing.

So like could it work at a GPU? GPU’s might do massive mounts of gemoetry calculations, geometry calculations might go well with AV devices’ simultaneous logic (Multilead semiconductor device) vector calculations making triangles


wikipedia mentions wire logic using only wires to do logic, it says that the oopsie is that there is no NOT, I think it is possible to make a wire NOT: MAke two capacitors at an RC circuit that oscillate (I think make a tone), when the two are connected,
there is a beat frequency of simultaneity; this is, with capacitors, a periodic slower high current pulse; If you define high current as “off” to the decider function (or next circuit), such as “swamped” or “indistinguishably high” Then
the wire AND as well as the wire “OR” get negated; so it looks to me like that is a way to produce a NOT just from wire; technologically you could use an actual capacitor, but if you are all about making all three And, Or, Not, out of actual just
wire, then two lengths on insulated wire, placed next to each other like chopsticks are a capicitor.
At an integrated circuit they make capacitors with semiconductor technology, but if it was all wire conductive traces at IC (but not semiconductor/semiconductor logic) you could just have either 2D wires next to each other (like split chopsticks), or
with stacked layers, two little swirl pads above each other [@|@] to make a wire capacitor. Note though that although this is all wire logic, for the capacitor to work the signal must at least some of the time be AC; interestingly it does not have to be
AC all the time, (sort of like it could be AC 1 hour out of 24 a day (or, 1 trillionth of a second per billionth of a DC seconds).

So I do not know who wanted non-semiconductor, and/or/not wire logic https://en.wikipedia.org/wiki/Wired_logic_connection#The_wired_OR_connection (I think and.or/not makes all logic primitives possible, thus any computer) but I think it could work to
make not with just minute wire trace next to wire trace (circuit trace next to circuit trace) capacitors, in their simple two wires next to each other form; It seems possible that as all wire logic does non/without field effect transistor switching time
it could be much much faster than transistor logic like 2020 computer chips (faster computers are better and awesome!), so if the beat frequency capacitor is used then the highest generable AC frequency is the thing that determines how many logic events
second or per trillionth of a second. If the photoelectric effect is faster than field effect transistors, or any other kind of transistor, then you could use a picosecond laser, directed at, like actual wire (but likely quantum dot coated wire, or some
kind of fastest state of the art photoelectic effect coated wire) to make the DC at the logic elements ripple periodically (sort of like a clock pulse), the ripple is enough to move AC current through the capacitors; and the beat frequency of the
capcitors (hey there could be more than 2 capacitors) produce the composite high current that means “swamped” or no discernable from the high background signal from the wire AND and OR parts; I guess it is novel to me in that it isn’t Not= absence
or off, it is a little like Not=undiscenrable, or effective Null. I have not heard about people using Null hardly at all in logic and circuit design or computers; “this AND that -> “oops can’t look at it“ voltage indistinguishable with Resitor
capacitor oscillator circuit apacitor “tone” (like I made an audio tone RC circuit once) , so assume an absence of “this AND that”; a trillionth or less (2020 picosecond or femtosecond or attosecond length light pulses at lasers and photoelectric
effect) of a second the power is back on (DC); I kind f wonder if I’m confused about this.

I may misunderstand wikipedia on dithering, and the way actual signal increases by N, but adding more noise just is sqrt(n), but it looks like MRI (fMRI machines) and ultrasound machines and photonic brain readers could go up in resolution if two
identical energy emitter things were placed less than half a voxel apart; so, this is easier than it looks; th piezoelectric emitter at an altrasound machine would just be a 1 micrometer coating of piezocrystal, and another 1 micrometer of piezocrystal
plated onto it, with an insulator bewteen them; when they emitted ultrasound, at whatever frequency there would be a real image and a secondary image just 1 micrometer apart; the mathematical conversion of the input waveform (raster scan, so it looks
like a one analog data channel oscilloscope) when 4 micrometers of voxel toether are averaged together the 1 micrometer separate images get averaged to a discenrable n, but the nondistinguishable stuff is sqrt(n) amplitude; then you subtract sqrt(n) from
the waveform amplitude and you are left with all features, so this produces higher contrast at 4 micrometer voxels; I read 50 micrometer resolution was a 20teens ultrasound resolution, but I think making piezoelements that are stacked at 1 micrometer
offset is very easy (IC technology) to manufacture inkjet printers during 20teens were 25 micrometer resolution, and MIT has an article on an inkjet printer they made with 250 nanometer resolution, so cheap printed ultrasonic 1micrometer separate
piezotransducers seem possible;
Now at fMRI and MRI, just put two magnetic windings in one coil, half diameter wires, but right next to each other separated by the state of the art in wire winding; conceivably micrometers (put two strands in one polymer jacket, spaced 9 micrometers
apart at the wire-spool factory) then wind the jacketed duowire sort of carefully like ribbon cable so it always tended to be flat side down), twentyteens 1mm fMRI resolution is one number; So every fMRI is composited of all of one wire, all of the
other wire, or all of both wires cimultaneously, and they do math on the 9 micrometer averaging and signal processsing word: dither n and sqrt(n) contract enhancement; voxel average

Temporal resolution of fMRI and MRI (at human sizes) might have to do with how fast the detector things spin around the person’s head; Gnetic algorithms using pysics software could comopnentize the masses and locations of the detectors and
coutnerweights, and optimize for a version that could safely whirl around in circles twice as fast; also optimizable is the reinforcement of the spinning detector assembly, with 3D printing of genetic algorithm base form for detectors form; It might be
possible to triple whirlaround velocity safely even while genetic algorithms (and noise cancellation focused audio) make the fMRI/MRI machine quiet.

If the genetic algorithm is directed to optimize complete absence of vibration at MRI/FMRI, and if computer guided high power acoustic dampening (anti-wiggle at the force of motorized fMRI wiggle) is used, then it is possible that the spinny dtector part
could wobble 1/8-1/16-1/64 as much, making a radiation symbol triad or an octagon of RF detectors possible because they are micrometers in line with each other (active vibration dampening) so they can all be composited together while only being

Laser interferometry tells how far each octagonal side of a plural RF detector/rotating detector thingy is off center roll pitch and yaw control; even cheap laser interferometry likely has micrometer resolution, and there is the opportunity to put focus
and registration reticles (focus lines) at each part of the spinny detector thing.
active acoustics then push the spinny part of the fMRI/MRI scanner to be on-true for higher resolution; higher resolution comes from combining the RF energy detection oscilloscope-stuff utilizing math (and things like technical word: dithering) to get
higher temporal resolution, rather than 20teens 1-4 second temporal resolution, doubling or quadrupling the spinny-velocity, and having 8 detectors make 8 mesurements per revolution, it actually could be 16 times higher temporal resolution; Some of the
dithering for better image processing comes from the three new things the magnet can do: magnetism from wire channel 1, magnetism from wire channel 2, and magnetism from wire channel:both.

technology: a bearing assembly, that is see through then have the laser/CMOS/light sensor in the bearing housing look at the bearings to see how they are actually wearing; alibaba VGA camera about 10 cents; 5 megapixel CMOS 20 cents (but might have been
surplus; electrical supply for a bearing assembly like those aerobie-looking bearings, could be mini-RFID TAG, at high frequency RF that passes most farady-cage metals as if they weren’t there; perhaps there’s such a things as a soliton tuned antenna
that could pick up higher power and as a high frequency RF eission could solitonly be even better at getting past faraday effect blockages; You could also use lasers, from any angle, on photovoltaic, produce enough electricity, stored at supercapacitor,
to take a 2 manute measurement once very 24 hours, unless CPU detects out-of-true condition, then do it more) silicon nitride lenses exist for IR frequencies, thus those bearing are possible to interrogate for optical smoothness as if they were laser-
made images of glass balls

longevity technology: breed double lifespan amoebas, find double lifespan amoebas, marine amoebas, amoebas that live in bristlecone pine tissue, bowhead whales, or also tortoises, difference between long lived amoeba and short lived amoeba gene products;
electrophoresis, screen yeast growing on gel, or microfluidic daphnia/c elegans from 10g of amoeba puree electrophoretically (isoelectrically) treated, then test longevizing upper 1% on mice; at 670 billion base pairs (more than 200 times the size of
the human genome) there’s a lot of chemicals an amoeba makes to screen as a library. See if there are any 100,000-1million year lifespan endolith amoebas; frozen artic mud; highly pressureized liquid very cold mud at some depth;



standard skull dither at photonics brain scan; standard solid tissue flashlifht fingers dither at phtonic scanning

fingering
typing speed and sexual masturbation ans partner stimulation fluencyl genetics; wrist fluency;

epigenetics of sleep duration and refreshment from making technlogy based on measuring monozygotic dissimilar-sleep-pattern twins, and dissimilar-sleep-pattern-siblings; this finds epigentic options like: most refreshed from sleep, 10-20% shorter
duration of sleep at equal refreshment, and most dreams (while developing this periodically interrupt sleep to do dream enumeration); The epigeeics if the specific genes galantamine turns on (mRNA->gene->epigenetics) could relate to freaiminh, but be
nootropic epigenetics as well. Just as an aside, I tried galantamine about twice; sleep effect on dreams was extreme; phenylpiratetam is a better nootropic; test specfic versions of the epigenetics of sleep modification on mice to verify they are absent
effect on wellness or also longevity or increase wellness and longevity; Peptide drugs, zinc finger drugs, herbal electrophoreic extracts are ways to make the epigenetic sleep modifying drugs; Also highly beneficial to children: sleep through the night
higher ratio of good/bad dreams, human mother volunteers could see if an epigentics that is normal at a .1% or more of the population of above median at subjective well being college graduates earning above median incomes with epigenetics that cause
babies to sleep through the night or cry less is something they, as mothers, aare willing to try, noting the 2020 conventional successfullness of the epigenome models. (unlikely to be harmful)

I noticed people on the internet sometimes use buttplugs prior to anal sex; these buttplugs could be anaesthetic only to the anus and not the penis; iontophoretic but plug is possible that does the previously mentioned at notes nerve drug receptor
chemicals electromigration to remove all discomfort while amping up pleasure nerves. Also, iotophoretic buttplugs and anal dildos/vibrators could do drug delivery of published healing proteins and peptides, reducing transmission of STDs STIs; a
combination cockring condom could be an electrophoretic surfaced condom that emitted healing peptides and proteins, reducing transmission of disease generally my causing rapid healing of anal and genital abrasions.

Breast, face genetic algorith human squiggle;

moving squiggle; moving breast, smiling face

photoactive sex drugs on glans lasers on ceiling on clitoris

NaPCA or KPCA at cervical ring as vaginal lubrication assurer, if the woman, perhaps elderly has concerns about her natural lubrication during sex

People of any age who preferred a wetter, moister vagina could colonize their vagina with a probiotic-like flora that excretes NaPCA, perhaps D amino acid version, so it is nonedible to other bacterial flora.


earlobes; upper earshell, pinna
as drug depot massage points; peptidase enzyme

recretional drug peptides; basic water and acid water from electrodes; cocoa powder (pH6.8-8.6; also dutch alkaline treated cocoa may be more basic, but possibly, possibly not at the grocery store but is online); tums pH and peptides;
amateur buffer: salt and base/acid; NaCl/Kcl+tums, cocoa powder, fruit juice the internet says, “ If the sequence has little or no net charge at any pH, move to step 3., below. If the sequence has a net charge at neutral pH, addition of dilute acetic acid as suggested above (for basic, positively charged peptides) or dilute
aqueous ammonia or ammonium bicarbonate (for acidic, negatively charged peptides) with further sonication should improve solubility. The nal concentration of acetic acid or ammonia/ammonium bicarbonate you use will depend on what your assay system can
tolerate. If the peptide still refuses to dissolve, you can at least remove the volatile buffer solution by lyophilisation and try alternative solvents on the same…If it is known that the peptide is slightly soluble in aqueous solution, it is better to
dissolve it completely in a small amount of neat acetic acid, acetonitrile, DMSO or DMF and slowly dilute with water rather than progressively adding such solvents to a suspension of the peptide in water. This is because the rate of dissolution of the
peptide into a water/solvent mixture may be slow, by comparison with its rate of dissolution in neat solvent, and therefore if the water/solvent mixture is used rst, much more nonaqueous solvent than necessary may eventually be added t


write words along with xy or circle circle instersections; can be tablet surface thing for even cheaper; schools already have tablets; children’s tablet writing styluses are slightly new; soft tip can push harmlessly into glass, has good not reistive
feel;
trave out lettters and words to learn to write; tabletop rather than screen mimics paper.


Comment on a sexy video: I see her moving her hips around a little, is she superturned on and almost, maybe actually orgasmic from her brain alone or is she also squeezing her vagina muscles and grinding on the office chair at work? Yay both! I've had
an orgasm touching my lower abdomen, but not genitals and been aroused enough to sort of spontaneously undulate without touching my genitals (I'm a guy) and it would be great to deel those ways even more? Is she (Stella) doing that too?

This might not work; but IoT computer projector ($9.99 alibaba) could throw threew ords on bedroom wall or ceiling, and then as an amusement, the people having sex could say one of them; Some of the people in erotic videos say words while they have sex,
and when it is authentic and real it is sexy, so, perhaps it could be both real and cued, or at least be a kind of a sex toy; hints of magnetic poetry but just a few words being prompted once every minute or two accumulating on teh walls/ceiling


Sex toy; 30 day contact lens surface vibrator, ok to leave in overnight; vibrates during REM sleep; IoT; disposable (vibrating cockring 5-11-15 cents at ailibaba similarly disposable)
mems vibrating wind up paritlcles

nonstimulant anti ADD sex drug; sustained stimulation often benefits people, notably women and girls during 2020, so is there a nonstimulant focus drug that is sensual; noopept bremelanotide;

Aeolian sexual pleasure vibrator; laminar flow air that is warm and humid is computer directed to spray against the clitoris, vagina, or penis; it flutters to create the greatest pleasure and orgasm frequency. ceiling mounted; or sybian airemission form;
technologically peltier micro cooler could gather water from air, that then channels to a warmer priot to being the humid air at the laminar flow producing chamber;

At the aeolian sexual pleasure vibrator the Quietest air pump is a genetic algorithm area of technological application;

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