have you tried to link and chain cameras together photo your flash?

the father of modern computing was likely using ancient early midi or atari or commodore and wanting multiple audio instruments or devices off the one controller instead of buying more soundcards and computers. Or to have an entire band play and record different audio tracks and create the audio mixer! its SAMEPAGEKERNELMERGING KSM because the computer is the UNIX AUDIO WAVE MAPPER device.. they had to invent the KVM keyboard monitor switch by inventing a kernel scheduler or hyperthreading stuff and queueing and page file pooling and things like load balancing.. that allows SCSI and infinity devices to plug in like a whole data center in serial with the KSM and kernel sound mapper and DM device mapper being swapped around and different so it serial ATA has the I/O as MULTI DEVICE MD! so ADM for DM raid device mapper raid linux command goes into MD multidevice instead of DM(devicemapper) and it does this with KSM write and wread was it? so this creates virtual devices and allows countless unsupported devices not in the kernel hardware list. creating VM-LINUX kernel.

So being able to have like 50 SCSI graphics cards and hard disks off your 90s AMD business computer USB ports because linux.. and like 8 stackable opteron AMD processors with more than previous cache for serial comm and printer ports being I/O buffer cached in a way that they save on resending the same signals so the bandwidth is used more efficiently and allowing for load balancing/drive tiering by using kernel PAGE files or pooling with SWAP files on faster storage disks (see intel optane or the software free threadripper one with every ryzen/threadripper mainboard feature called STORE MI which they made paid data center only after first ryzen was doing like 10gb/sec reads writes off 500MB/sec SSD raids)

So directx is the GPU/camera memcard and device function feature called or known as DRAG AND DROP to the mounted by the kernel device so the hardware does it.. so anything on any OS you drag and drop into your HDR directx12 hardware.. is HDR directx12.. and the RAW files look dull and washed out grey because the massive R G B color data of 8bit 256 colors R G and B to power of 3 means every photo file would have extra disk space in old 80s first digicams/webcams/memory cards.. your 512kb or 256k playstation 1 memory card with 2MBvram and 2MB or 4MB sysram or something wont fit much in the 90s.. imagine printing or outputting to display without dull bland RAW PC format to HARDWARE apply colors as its drawn to screen with RAW DRAW just by dragging and dropping because 80s stuff cant fit the color data in its the only way digital works it applies it as a hardware function, and also uses software false bit depth like atari 2bits has 8 colors but we mirror it and pus minus signs and use photo negatives and its called COLOR PLUS PLUS .. i know it sounds like C++. So now we have modern 12BPC instead of 8 which is 4096 each R G B to power of 3 which is 68billion colors on an AMD RNA DNA power of 3 printer ink resolution and texture/screen resolution that outputs to your display port or viewport running cinema cameras and mobile phones at 8k165hz per RDNA3 chip for use with.. 90s wideformat printers and other uhh scifi stuff like page black and mining slag rocks black being cheaper NAVY blue thats black and not some costly vanta black or black black jet black ink.. but as photography became digital and things like android OS needed a lower latency linux kernel that supported all the pro cameras and touch screens and unsupported DIY rear TFT/LCD panels the size of your fingernails with negative hardware latency of ryzen/radeon and infinitycache infinity fabric of.. 80s and 90s AMD computers known as super computers.. this required altering the kernel and scheduler back to an earlier low latency state of negative latency.. So how can we tell if it will work with all the cameras and optics and be negative latency? what if.. we linked the cameras together and tuned it to work off the same flash and then tweaked until we could capture the flash or the camera BEFORE it shoots.. observing the original camera before the light reaches it knoowing the outcome! FREAKING LASERS! what about focusing? LASERS! what about.. lens mounts. like metabones? huh what? dont those actually come with the camera or how would they sell lenses for it or use it if it cant focus.. you always got several lenses with each camera stock standard and were given the option to waste all your money on stupid sports lenses to look like a sniper or artillery installation with a large calibre round firing long thick barrel but you usually only got a portrait and or macro lens telephoto option stock people spent the dollars to fit on wide angle lenses to landscape and beaches and sunsets or group/family photos.

So if your soundblaster 16 software audio midi stuff was NOT the roland midi or yamaha stagia 3 or whatever the radio broadcast station uses for FM radio SFX then how can we tell if your digital camera is a camera or a software emulator fake? tried linking them up or shooting with the same flash and other stuff? everyone used to try and photograph lightning with expensive wallet burn mode of several shots if you hold the button down burst mode! with bandoliers of 80s memory cartridges like NES ROMS. but in modern sensible floppy disk drives jamming forever what if we made it go vertical in and out and folded the disk into a cube and read all 4 sides.. no.. what if its like RAM! yes. nintendo gamecube.. wait.. if we're folding the disk up.. why not cut it into wafer biscuits and layer it on the one little square and just run wires all through it like these wafer biscuits with cream filling...hmmm.. big brain powers activate! lets.. make a gameboy camera or something.

like the flash cards using UDF file format. the balancing of them was a sort of RAID file system called BRTFS so we use that function. i joked it used to take so long i'd go for lunch like yeah i'll be right there as i had the cheapest oldest spinning disk drives in a cheapest NAS network storage doing it.. over the network. see how memcards/flash and RAM all that stuff.. is multiwafers? but as for the gameboy camera.. and the playstation 3 eyetoy! and the ps2 visual library.. and better than AMD fire rays and ray marching with ps3. .

amd fire rays is more than enough for most people. but couldnt you take like a ps3 and make a cool camera? or a gameboy or handheld or phone and make an awesome camera? why isnt it PC raw format or drag and drop? isnt directly X drag and drop it into the device mount?