It is simple. You can connect ALL the hardware you want to RaspberryPI or Arduino, best if powered with 3V 5V or 12V.
After you wire up the cables you have to build your own driver using hardaware spec & datasheet
So, no limits for these boards
According to this negatively rate answer, you could ... if you ignore all physical constrains.
@TelKitty It's more than theoretically possible--it's entirely reasonable, but unless you're extremely ambitious, you probably want to use a pre-built servo driver. I haven't checked, but I'd almost bet that the usual suspects (e.g., Adafruit, Sparkfun) would have at least a few to choose from. Oh, and if you have a choice I'd tend to suggest using stepper motors instead of servos. Among other things, they're usually a bit easier to drive, and usually have higher torque.
There is no site on stackoverflow where I can ask questions in regards to robots, more specifically, where I can ask questions about servos and how to control servos with computer system.
Maybe I should not be so suspicious, but I am mentioning menace bot because yesterday certain organization sent me an email about deleting one of my accounts for 18 months inactivity, then another 2 emails about not using their official app. This morning an email about a deadline to update my apps. In between, I found out that all the recent images in my email accounts were subjected to image recognition.
While as it could all be coincidences and not done by human. I could not but suspecting 'evil' bots are running around targeting all online kitties.
I have an external excel file which contains a list of different parameter values needed in order to run an application. One of the parameters in the excel file is, numberofcustomers. I read this at the beginning of my program into an object, say, globalconstant object, gcs. The class globalconst...
@JerryCoffin This was a convention center in Austin TX more than likely they had three phase coming in so you could have easily gotten the 90 degree phase
@Mgetz Would still be pretty unusual. Starting from 3 phase power, you normally take a single 440V pair (two hots from the 3 phase connection) and step that down to 220 V (with a center tap, so center to either hot is 120 V). To get 120 that wasn't 180 degrees out of phase, you'd need to end up with the two lines in the plug coming from different transformers.
@Mgetz Many of my teachers seemed to feel that way about me. In one case, it got to the point that my dad got involved--I'd gotten 100% on every quiz, every test, and every piece of homework for the entire year, and the teacher still gave me a low B as the overall grade.
Granted, I've always hated those people who can get straight A's without ever coming to class or even trying. But hey, as much as we like to preach equality, not everybody is equal. Some are simply more talented than others.
Yeah I know. Also that academic performance in school doesn't seem to correlate very strongly with QOL in adulthood.
There's a couple of people in my school days who were academic geniuses whom (depending on their grade) I either looked up to or resented. Now they're college drop-outs, unemployed, living with parents - no path ahead.
we are facing somewhat similar problems in our own solution at the moment as we are enabling Redux action replay but we have UI components that fetch data on mount whihc is not ideal
but you should just be explicit about what you need to fetch when the model state is changed
@StackedCrooked Which system clock? You have an oscillator that drives the CPU, and the CPU's clock is some multiple of that. The chipset has a 1.024 MHz clock, and usually an HPET that's required to be at least 10 MHz.
@StackedCrooked It will probably access some stored value that caches the TSC timestamp and date of the last time it re-calibrated. Then it calls TSC to compute the difference to now.
high_resolution_clock is normally going to be raw tsc. I'd normally expect system_clock to come (more or less) directly from the HPET or 1.024 MHz clock. I haven't looked at the library source to be sure though.
I have noticed that threads that spin on system_clock::now() also have very high "local timer interrupt" counts. (On Linux I can see this with cat /proc/interrupts). So I suppose this means "local timer interrupt" is the thing that does the recalibration?
@JerryCoffin On Windows8 and later, it does some sort of TSC offsetting. The system clock drifts if you change the base clock (and thus TSC frequency) after it has already booted up.
@StackedCrooked If memory serves, there is a Windows 10 driver for the HPET, but 1) it's not installed by default, and 2) if you do install the driver, most current software still won't use it, but some older software will.
@Mysticial I'll take your word for it--like I said, I haven't re-checked recently.
Oh, looking back I also forgot to mention on other basic clock source in the system: ACPI provides a power management timer, which runs at the NTSC color burst frequency (3.579545 MHz). That used to be used to keep US TVs in sync with broadcasters, so there are lots of sources of cheap, accurate color burst crystals.
Note, however, that the comparison can be simplified a little if you want: bool Coordinate::operator<(const Coordinate& other) const { if (x < other.x) { return true; } else if (x > other.x) { return false; } else return y < other.y; } — Jerry Coffin1 min ago
Did you see my comment earlier?
I was really confused about that too. Lemme try to fix that. One element of style: prefer to "generate" comparison e.g. return std::tie(x,y) < std::tie(other.x, other.y);. That's much less error prone — seheyesterday
@sehe There are a number of things I like that many people seem to think are error prone, but my errors always seem to have entirely different sources. Oh well...
I do rather like using std::tie for this case though.