From western Appalachian front, westward to:
Mississippi River
Crossing of Oregon and Santa Fe trail in KC
Fort Leavenworth in eastern KS
98th meridian in central KS
I suppose it's up for contention, and varied with time.
The complex samples are quadrature sampling (I+jQ); just a different name. It's actually 90 degrees phase shift, and you do it for the local oscillator, which is where the j comes from. Yeah, I'd want two, so I'd have to decimate to 100 MHz BW.
But as you said, now I need two 10G connections. I suppose my point was there are probably many uses for 10G connections; build it and they will come. Hell, maybe within the next year Google fiber will finally get to my house, and at least I can get 20 MHz real-time BW.
Why the fuck could the entire country be electrified (rural electrification), stringing heavy cables to every small town. Why the fuck could the entire country have telephone access (rural telephony), stringing twisted to every small town. Now in the 21st century they can't run a damned glass fiber (cheap compared to copper) in the most dense areas, never mind stringing it along mostly empty telephone poles. Give me a fucking break. I suppose the telcos took the money and run.
Only takes 3 us to go 1 km, which is as fast as you can go; wire or fiber slower. It's the electronics, specifically the signal processing, causing the latency.
Been there done that. It's because the IT people won't keep the damn tools updated and functioning correctly, and security locks down all the ports, and batch submission to clusters does not work well for getting real-time feedback on convergence. Fuck the cloud.
The video card is actually one of the lower end Nvidia since it must be single slot width, in order to jam in 4 (double width) Tesla cards. Now it will do 2D N-body simulations, where N is a few million, pretty impressively. Actually probably stinks for gaming.
Yes, I'm well aware of that, but the P100 wasn't available in FY16 (corporate funding), and the software I use probably won't support it until FY18. I'll take what I can get.
Unfortunately you are correct. I ordered it with Windows Sever 2012, but our IT dept is going to fuck me with Windows 10, after specifically telling me I couldn't use Windows 10 since they didn't support it; only 7. In any case, either is needed to address 512 GB.
I suppose SiGe or GaAs with a liquid N2 heat sink. Then again I suppose as the circuitry get's denser it's gate capacitance and interconnect resistance that keep the clock speeds so slow (compared to transistor speed).
Sees, I just spent $33k for a dual Xeon, 512 GB, and 4 Telsa K40. I suppose that will make up for > 10x standard PCs. I suppose you either need the horsepower, and it's still not enough, or you don't need it at all. I just hope the high end workstations continue to be available; noting Intel stopped their motherboard production.
Yeah, probably something similar to that. Every few years there is some proposed technology to boost linearity or PAE, and they never pan out:
https://www.thefreelibrary.com...
There was some marketing drivel from MA/COM years ago about "digital RF" revolutionizing this and that. I can't find it, but it was quite entertaining.
Slashdot Mirror
From western Appalachian front, westward to: Mississippi River Crossing of Oregon and Santa Fe trail in KC Fort Leavenworth in eastern KS 98th meridian in central KS I suppose it's up for contention, and varied with time.
I thought radiologists were supposed to be outsourced to India by now.
In...out...in...out..in...
The complex samples are quadrature sampling (I+jQ); just a different name. It's actually 90 degrees phase shift, and you do it for the local oscillator, which is where the j comes from. Yeah, I'd want two, so I'd have to decimate to 100 MHz BW. But as you said, now I need two 10G connections. I suppose my point was there are probably many uses for 10G connections; build it and they will come. Hell, maybe within the next year Google fiber will finally get to my house, and at least I can get 20 MHz real-time BW.
I'd like to deploy a remote SDR (software defined radio) for real-time TDOA geo-location. At 200 Msps * 16 bit complex samples, it's close to 10G.
Actually farmer Brown in Kansas does have fiber: https://ideatek.servicezones.n...
I'd say it's not getting fiber, period. I'm paying $125/month for 100/5 with static IP. I'd pay more for 1000/1000, but it is still unavailable.
ARGH! I can't; blocked at work. Thanks.
Why the fuck could the entire country be electrified (rural electrification), stringing heavy cables to every small town. Why the fuck could the entire country have telephone access (rural telephony), stringing twisted to every small town. Now in the 21st century they can't run a damned glass fiber (cheap compared to copper) in the most dense areas, never mind stringing it along mostly empty telephone poles. Give me a fucking break. I suppose the telcos took the money and run.
Ditto. They have much left to finish around Kansas City.
Can you get a chip that undoes the "fix" that VW applies? Diesel trucks can be chipped to roll coal, so why not an MPG restoration chip?
Glock better than a 1911? Maybe in reliability, but it sucks in every other way. Shitty grip ergonomics, squishy trigger, too wide.
Only takes 3 us to go 1 km, which is as fast as you can go; wire or fiber slower. It's the electronics, specifically the signal processing, causing the latency.
Electromagnetic theory is well developed, but propagation of mmWave in urban environments was not.
Ahem.....Fancy BEAR! Do you not get it. Russia bear, not Bearnstein bear.
Been there done that. It's because the IT people won't keep the damn tools updated and functioning correctly, and security locks down all the ports, and batch submission to clusters does not work well for getting real-time feedback on convergence. Fuck the cloud.
The video card is actually one of the lower end Nvidia since it must be single slot width, in order to jam in 4 (double width) Tesla cards. Now it will do 2D N-body simulations, where N is a few million, pretty impressively. Actually probably stinks for gaming.
Yes, I'm well aware of that, but the P100 wasn't available in FY16 (corporate funding), and the software I use probably won't support it until FY18. I'll take what I can get.
EM simulation of millimeter wave antennas and circuits. The tools will probably never run on the cloud.
Unfortunately you are correct. I ordered it with Windows Sever 2012, but our IT dept is going to fuck me with Windows 10, after specifically telling me I couldn't use Windows 10 since they didn't support it; only 7. In any case, either is needed to address 512 GB.
I suppose SiGe or GaAs with a liquid N2 heat sink. Then again I suppose as the circuitry get's denser it's gate capacitance and interconnect resistance that keep the clock speeds so slow (compared to transistor speed).
I've smelt plenty of Chinese shit electrolytic capacitors that probably will catch fire.
Sees, I just spent $33k for a dual Xeon, 512 GB, and 4 Telsa K40. I suppose that will make up for > 10x standard PCs. I suppose you either need the horsepower, and it's still not enough, or you don't need it at all. I just hope the high end workstations continue to be available; noting Intel stopped their motherboard production.
Yeah, probably something similar to that. Every few years there is some proposed technology to boost linearity or PAE, and they never pan out: https://www.thefreelibrary.com... There was some marketing drivel from MA/COM years ago about "digital RF" revolutionizing this and that. I can't find it, but it was quite entertaining.
Probably massive MIMO and mmWave.