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ISS upgrades it's rig

MadModder

Space X just launched (successfully) a supercomputer to be installed on the International Space Station.

 

http://money.cnn.com/2017/08/14/technology/spacex-nasa-supercomputer/index.html

 

Hopefully they remembered to include all the appropriate cabling (<---joke).

Best Excuses:

        #1(simple) "Well, I never liked that stupid thing anyway!"

        #2(complex) "Obviously there was a flaw in the material, probably due to the inadvertent introduction of contaminants during the manufacturing process."

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It must be really challenging to design a 'super computer' for the ISS considering the careful power budget that the station works on.  The whole thing is solar afterall, it can't quite fire up the secondary dilithium reactors when they need more power to the deflector shields.

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1 minute ago, AshleyAshes said:

It must be really challenging to design a 'super computer' for the ISS considering the careful power budget that the station works on.  The whole thing is solar afterall, it can't quite fire up the secondary dilithium reactors when they need more power to the deflector shields.

but what if they divert energy from the life support and gather everyone in one mudule?

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Maybe someday we can have these high performance per watt design on our phones.

CPU: i7-2600K 4751MHz 1.44V (software) --> 1.47V at the back of the socket Motherboard: Asrock Z77 Extreme4 (BCLK: 103.3MHz) CPU Cooler: Noctua NH-D15 RAM: Adata XPG 2x8GB DDR3 (XMP: 2133MHz 10-11-11-30 CR2, custom: 2203MHz 10-11-10-26 CR1 tRFC:230 tREFI:14000) GPU: Asus GTX 1070 Dual (Super Jetstream vbios, +70(2025-2088MHz)/+400(8.8Gbps)) SSD: Samsung 840 Pro 256GB (main boot drive), Transcend SSD370 128GB PSU: Seasonic X-660 80+ Gold Case: Antec P110 Silent, 5 intakes 1 exhaust Monitor: AOC G2460PF 1080p 144Hz (150Hz max w/ DP, 121Hz max w/ HDMI) TN panel Keyboard: Logitech G610 Orion (Cherry MX Blue) with SteelSeries Apex M260 keycaps Mouse: BenQ Zowie FK1

 

Model: HP Omen 17 17-an110ca CPU: i7-8750H (0.125V core & cache, 50mV SA undervolt) GPU: GTX 1060 6GB Mobile (+80/+450, 1650MHz~1750MHz 0.78V~0.85V) RAM: 8+8GB DDR4-2400 18-17-17-39 2T Storage: HP EX920 1TB PCIe x4 M.2 SSD + Crucial MX500 1TB 2.5" SATA SSD, 128GB Toshiba PCIe x2 M.2 SSD (KBG30ZMV128G) gone cooking externally, 1TB Seagate 7200RPM 2.5" HDD (ST1000LM049-2GH172) left outside Monitor: 1080p 126Hz IPS G-sync

 

Desktop benching:

Cinebench R15 Single thread:168 Multi-thread: 833 

SuperPi (v1.5 from Techpowerup, PI value output) 16K: 0.100s 1M: 8.255s 32M: 7m 45.93s

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But that means "upgrades it is rig"

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Just now, Ruffleduffle said:

but what if they divert energy from the life support and gather everyone in one mudule?

When everyone's in the same small space, they still use the same oxygen as they would in a large space. This at most reduces power used on lights, but that's it.

CPU: i7-2600K 4751MHz 1.44V (software) --> 1.47V at the back of the socket Motherboard: Asrock Z77 Extreme4 (BCLK: 103.3MHz) CPU Cooler: Noctua NH-D15 RAM: Adata XPG 2x8GB DDR3 (XMP: 2133MHz 10-11-11-30 CR2, custom: 2203MHz 10-11-10-26 CR1 tRFC:230 tREFI:14000) GPU: Asus GTX 1070 Dual (Super Jetstream vbios, +70(2025-2088MHz)/+400(8.8Gbps)) SSD: Samsung 840 Pro 256GB (main boot drive), Transcend SSD370 128GB PSU: Seasonic X-660 80+ Gold Case: Antec P110 Silent, 5 intakes 1 exhaust Monitor: AOC G2460PF 1080p 144Hz (150Hz max w/ DP, 121Hz max w/ HDMI) TN panel Keyboard: Logitech G610 Orion (Cherry MX Blue) with SteelSeries Apex M260 keycaps Mouse: BenQ Zowie FK1

 

Model: HP Omen 17 17-an110ca CPU: i7-8750H (0.125V core & cache, 50mV SA undervolt) GPU: GTX 1060 6GB Mobile (+80/+450, 1650MHz~1750MHz 0.78V~0.85V) RAM: 8+8GB DDR4-2400 18-17-17-39 2T Storage: HP EX920 1TB PCIe x4 M.2 SSD + Crucial MX500 1TB 2.5" SATA SSD, 128GB Toshiba PCIe x2 M.2 SSD (KBG30ZMV128G) gone cooking externally, 1TB Seagate 7200RPM 2.5" HDD (ST1000LM049-2GH172) left outside Monitor: 1080p 126Hz IPS G-sync

 

Desktop benching:

Cinebench R15 Single thread:168 Multi-thread: 833 

SuperPi (v1.5 from Techpowerup, PI value output) 16K: 0.100s 1M: 8.255s 32M: 7m 45.93s

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5 minutes ago, AshleyAshes said:

It must be really challenging to design a 'super computer' for the ISS considering the careful power budget that the station works on.  The whole thing is solar afterall, it can't quite fire up the secondary dilithium reactors when they need more power to the deflector shields.

Well apparently we've gone back 10 years in the past because:

Quote

According to Mark Fernandez, the HPE engineer who is heading up this new experiment, the space-bound supercomputer will have the ability to make one trillion calculations in a single second -- about 30 to 100 times more powerful than your average desktop computer.

A Quadro P600 or Radeon Pro WX2100 would work just fine for this task, assuming this is a FLOPS rating.

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1 minute ago, Jurrunio said:

When everyone's in the same small space, they still use the same oxygen as they would in a large space. This at most reduces power used on lights, but that's it.

you ever watched star trek?

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Just now, M.Yurizaki said:

Well apparently we've gone back 10 years in the past because:

A Quadro P600 or Radeon Pro WX2100 would work just fine for this task, assuming this is a FLOPS rating.

It is a 1 Teraflop computer. It's an upgrade for the ISS, not sure about the desktop computer comparison.

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2 minutes ago, M.Yurizaki said:

Well apparently we've gone back 10 years in the past because:

A Quadro P600 or Radeon Pro WX2100 would work just fine for this task, assuming this is a FLOPS rating.

I believe processors in space need to be radiation resistant, unlike the ones we use here on earth.

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Just now, tjcater said:

I believe processors in space need to be radiation resistant, unlike the ones we use here on earth.

They don't need to since the whole space station is radiation resistant so the astronauts don't die. Not like these computers are mounted externally.

CPU: i7-2600K 4751MHz 1.44V (software) --> 1.47V at the back of the socket Motherboard: Asrock Z77 Extreme4 (BCLK: 103.3MHz) CPU Cooler: Noctua NH-D15 RAM: Adata XPG 2x8GB DDR3 (XMP: 2133MHz 10-11-11-30 CR2, custom: 2203MHz 10-11-10-26 CR1 tRFC:230 tREFI:14000) GPU: Asus GTX 1070 Dual (Super Jetstream vbios, +70(2025-2088MHz)/+400(8.8Gbps)) SSD: Samsung 840 Pro 256GB (main boot drive), Transcend SSD370 128GB PSU: Seasonic X-660 80+ Gold Case: Antec P110 Silent, 5 intakes 1 exhaust Monitor: AOC G2460PF 1080p 144Hz (150Hz max w/ DP, 121Hz max w/ HDMI) TN panel Keyboard: Logitech G610 Orion (Cherry MX Blue) with SteelSeries Apex M260 keycaps Mouse: BenQ Zowie FK1

 

Model: HP Omen 17 17-an110ca CPU: i7-8750H (0.125V core & cache, 50mV SA undervolt) GPU: GTX 1060 6GB Mobile (+80/+450, 1650MHz~1750MHz 0.78V~0.85V) RAM: 8+8GB DDR4-2400 18-17-17-39 2T Storage: HP EX920 1TB PCIe x4 M.2 SSD + Crucial MX500 1TB 2.5" SATA SSD, 128GB Toshiba PCIe x2 M.2 SSD (KBG30ZMV128G) gone cooking externally, 1TB Seagate 7200RPM 2.5" HDD (ST1000LM049-2GH172) left outside Monitor: 1080p 126Hz IPS G-sync

 

Desktop benching:

Cinebench R15 Single thread:168 Multi-thread: 833 

SuperPi (v1.5 from Techpowerup, PI value output) 16K: 0.100s 1M: 8.255s 32M: 7m 45.93s

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1 minute ago, M.Yurizaki said:

Well apparently we've gone back 10 years in the past because:

A Quadro P600 or Radeon Pro WX2100 would work just fine for this task, assuming this is a FLOPS rating.

Well, what are you expecting them to put up there?  No joke, at full power the ISS's panels can only provide between 84-120 kilowatts and that has to power EVERYTHING up there, including the critical 'make astronauts not die' systems, there's no extension cord they can run to the neighbors house if things start to brown out.

 

So whatever HP built was probably very powerful relative to how much energy it consumes.

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2 minutes ago, Ruffleduffle said:

you ever watched star trek?

Nope. What did they do there?

CPU: i7-2600K 4751MHz 1.44V (software) --> 1.47V at the back of the socket Motherboard: Asrock Z77 Extreme4 (BCLK: 103.3MHz) CPU Cooler: Noctua NH-D15 RAM: Adata XPG 2x8GB DDR3 (XMP: 2133MHz 10-11-11-30 CR2, custom: 2203MHz 10-11-10-26 CR1 tRFC:230 tREFI:14000) GPU: Asus GTX 1070 Dual (Super Jetstream vbios, +70(2025-2088MHz)/+400(8.8Gbps)) SSD: Samsung 840 Pro 256GB (main boot drive), Transcend SSD370 128GB PSU: Seasonic X-660 80+ Gold Case: Antec P110 Silent, 5 intakes 1 exhaust Monitor: AOC G2460PF 1080p 144Hz (150Hz max w/ DP, 121Hz max w/ HDMI) TN panel Keyboard: Logitech G610 Orion (Cherry MX Blue) with SteelSeries Apex M260 keycaps Mouse: BenQ Zowie FK1

 

Model: HP Omen 17 17-an110ca CPU: i7-8750H (0.125V core & cache, 50mV SA undervolt) GPU: GTX 1060 6GB Mobile (+80/+450, 1650MHz~1750MHz 0.78V~0.85V) RAM: 8+8GB DDR4-2400 18-17-17-39 2T Storage: HP EX920 1TB PCIe x4 M.2 SSD + Crucial MX500 1TB 2.5" SATA SSD, 128GB Toshiba PCIe x2 M.2 SSD (KBG30ZMV128G) gone cooking externally, 1TB Seagate 7200RPM 2.5" HDD (ST1000LM049-2GH172) left outside Monitor: 1080p 126Hz IPS G-sync

 

Desktop benching:

Cinebench R15 Single thread:168 Multi-thread: 833 

SuperPi (v1.5 from Techpowerup, PI value output) 16K: 0.100s 1M: 8.255s 32M: 7m 45.93s

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3 minutes ago, Ruffleduffle said:

but what if they divert energy from the life support and gather everyone in one mudule?

everyone knows you just reverse the polarity... jeeze.

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10 minutes ago, Ruffleduffle said:

but what if they divert energy from the life support and gather everyone in one mudule?

Only if you remember to still power all the lights/panels/displays in all other modules.

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1 minute ago, Jurrunio said:

Nope. What did they do there?

It si a common thing in the space sci-fi to convert power from system to system, it is just a joke

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15 minutes ago, AshleyAshes said:

It must be really challenging to design a 'super computer' for the ISS considering the careful power budget that the station works on.  The whole thing is solar afterall, it can't quite fire up the secondary dilithium reactors when they need more power to the deflector shields.

They just have to reroute power from the engines. Scotty did it all the time.

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1 minute ago, aisle9 said:

They just have to reroute power from the engines. Scotty did it all the time.

dont forget the warp core, crazy amounts of energy!

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Just now, aisle9 said:

They just have to reroute power from the engines. Scotty did it all the time.

Only that the engines don't use electricity since they are rockets. They use liquidfied gas.

CPU: i7-2600K 4751MHz 1.44V (software) --> 1.47V at the back of the socket Motherboard: Asrock Z77 Extreme4 (BCLK: 103.3MHz) CPU Cooler: Noctua NH-D15 RAM: Adata XPG 2x8GB DDR3 (XMP: 2133MHz 10-11-11-30 CR2, custom: 2203MHz 10-11-10-26 CR1 tRFC:230 tREFI:14000) GPU: Asus GTX 1070 Dual (Super Jetstream vbios, +70(2025-2088MHz)/+400(8.8Gbps)) SSD: Samsung 840 Pro 256GB (main boot drive), Transcend SSD370 128GB PSU: Seasonic X-660 80+ Gold Case: Antec P110 Silent, 5 intakes 1 exhaust Monitor: AOC G2460PF 1080p 144Hz (150Hz max w/ DP, 121Hz max w/ HDMI) TN panel Keyboard: Logitech G610 Orion (Cherry MX Blue) with SteelSeries Apex M260 keycaps Mouse: BenQ Zowie FK1

 

Model: HP Omen 17 17-an110ca CPU: i7-8750H (0.125V core & cache, 50mV SA undervolt) GPU: GTX 1060 6GB Mobile (+80/+450, 1650MHz~1750MHz 0.78V~0.85V) RAM: 8+8GB DDR4-2400 18-17-17-39 2T Storage: HP EX920 1TB PCIe x4 M.2 SSD + Crucial MX500 1TB 2.5" SATA SSD, 128GB Toshiba PCIe x2 M.2 SSD (KBG30ZMV128G) gone cooking externally, 1TB Seagate 7200RPM 2.5" HDD (ST1000LM049-2GH172) left outside Monitor: 1080p 126Hz IPS G-sync

 

Desktop benching:

Cinebench R15 Single thread:168 Multi-thread: 833 

SuperPi (v1.5 from Techpowerup, PI value output) 16K: 0.100s 1M: 8.255s 32M: 7m 45.93s

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This is for NASAs High Performance Commercial Off the Shelf (COTS) Computer Systems experiment where they want to '1) run compute and data intensive applications in a changing radiation climate, 2) monitor power consumption and dynamically tune the power consumed, and 3) determine effects of solar radiation on the systems while running.'  Here is the link to NASAs experiment page, which also has some computer graphics of what the case looks like:

 

https://www.nasa.gov/mission_pages/station/research/experiments/2304.html#overview

 

They sent up two identical computers and have another two identical ones running on the ground as control computers as a part of the overall experiment.

 

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1 minute ago, Ruffleduffle said:

Man, you dont get it, we are just making jokes based upon sci-fi movies and series @Jurrunio

It is hard for me since I watch sci-fi mostly trying to find things wrong with them, though to be fair, I watch movies mainly for the same reason.

CPU: i7-2600K 4751MHz 1.44V (software) --> 1.47V at the back of the socket Motherboard: Asrock Z77 Extreme4 (BCLK: 103.3MHz) CPU Cooler: Noctua NH-D15 RAM: Adata XPG 2x8GB DDR3 (XMP: 2133MHz 10-11-11-30 CR2, custom: 2203MHz 10-11-10-26 CR1 tRFC:230 tREFI:14000) GPU: Asus GTX 1070 Dual (Super Jetstream vbios, +70(2025-2088MHz)/+400(8.8Gbps)) SSD: Samsung 840 Pro 256GB (main boot drive), Transcend SSD370 128GB PSU: Seasonic X-660 80+ Gold Case: Antec P110 Silent, 5 intakes 1 exhaust Monitor: AOC G2460PF 1080p 144Hz (150Hz max w/ DP, 121Hz max w/ HDMI) TN panel Keyboard: Logitech G610 Orion (Cherry MX Blue) with SteelSeries Apex M260 keycaps Mouse: BenQ Zowie FK1

 

Model: HP Omen 17 17-an110ca CPU: i7-8750H (0.125V core & cache, 50mV SA undervolt) GPU: GTX 1060 6GB Mobile (+80/+450, 1650MHz~1750MHz 0.78V~0.85V) RAM: 8+8GB DDR4-2400 18-17-17-39 2T Storage: HP EX920 1TB PCIe x4 M.2 SSD + Crucial MX500 1TB 2.5" SATA SSD, 128GB Toshiba PCIe x2 M.2 SSD (KBG30ZMV128G) gone cooking externally, 1TB Seagate 7200RPM 2.5" HDD (ST1000LM049-2GH172) left outside Monitor: 1080p 126Hz IPS G-sync

 

Desktop benching:

Cinebench R15 Single thread:168 Multi-thread: 833 

SuperPi (v1.5 from Techpowerup, PI value output) 16K: 0.100s 1M: 8.255s 32M: 7m 45.93s

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14 minutes ago, M.Yurizaki said:

Well apparently we've gone back 10 years in the past because:

A Quadro P600 or Radeon Pro WX2100 would work just fine for this task, assuming this is a FLOPS rating.

Except the tasks that the supercomputer does are highly serial and independent. They're not the kinds of things that a GPU could be leveraged for. There's a reason why a lot of modern supercomputers still have huge CPU clusters to assist their GPU clusters.

 

11 minutes ago, Jurrunio said:

They don't need to since the whole space station is radiation resistant so the astronauts don't die. Not like these computers are mounted externally.

Different levels of radiation. Certain kinds of radiation that can cause a bitflips can penetrate kilometers of ground here on earth, much less the radiation shielding of the space station. With the amounts of solar radiation up there, there's serious worry that even traditional precautions (ECC memory, and error checking) won't be enough for modern compute systems to run mission critical systems, especially with off-the-shelf solutions.

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Just now, Jurrunio said:

It is hard for me since I watch sci-fi mostly trying to find things wrong with them, though to be fair, I watch movies mainly for the same reason.

none of the stuff we said is to be taken seriously, we where just having a bit of fun

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