Questions and Answers : Unix/Linux : ARM application
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Send message Joined: 6 Sep 10 Posts: 1 Credit: 1,546,816 RAC: 1,559 |
Hello can you develop an ARM application? Is it possible? thanks |
Send message Joined: 5 Sep 04 Posts: 7629 Credit: 24,240,330 RAC: 0 |
No. Climate models are too complex for that. Also, the models currently used are those created and used by the UK Met Office. Oxford Uni doesn't create their own. |
Send message Joined: 15 May 09 Posts: 4540 Credit: 19,018,099 RAC: 20,856 |
Hello can you develop an ARM application? Is it possible? thanks It is possible that the OpenIFS tasks might be able to run on risc chips. If not then new Macs will be in trouble. |
Send message Joined: 6 Oct 06 Posts: 204 Credit: 7,608,986 RAC: 0 |
Interesting though. My ARM device is running some flavour of Linux. Linux is Linux, what does the architecture of the CPU have to do with the matter? |
Send message Joined: 5 Sep 04 Posts: 7629 Credit: 24,240,330 RAC: 0 |
The program uses one of the SSE instruction sets. I forget now whether it's SSE2 or SSE4. |
Send message Joined: 6 Aug 04 Posts: 195 Credit: 28,343,308 RAC: 10,415 |
Interesting though. My ARM device is running some flavour of Linux. Linux is Linux, what does the architecture of the CPU have to do with the matter?There are far too many design, implementation, programming and compiling variables to assume that the CPU architecture won't matter. The programs we are running were aimed at super-computers. Support for ARMv8-A in Linux is from around 2012. It's a long while since I used the first generation 6502 assembler. The original ARM was hard-wired, no Microcode (the Hardware Abstraction Layer) that translates the executable program into the chip's reduced instruction set. Even it ran an executable in Linux, these RISC chips are aimed at low power devices and will have (IIRC) an external L3 cache typically from 256KB to 4MB. Without architecture targeted programming/compilation, plus deep cache, don't expect data and cpu intensive programs (like CPDN) to behave nicely on a RISC device. |
Send message Joined: 6 Oct 06 Posts: 204 Credit: 7,608,986 RAC: 0 |
Hello __________________ @fzs600. Go to World Community Grid. They need as many ARM devices( mobile devices, mobile phones, Single Board Computers) as possible for their COVID19 project. No lack of work either. Best of luck. |
Send message Joined: 6 Oct 06 Posts: 204 Credit: 7,608,986 RAC: 0 |
Interesting though. My ARM device is running some flavour of Linux. Linux is Linux, what does the architecture of the CPU have to do with the matter?There are far too many design, implementation, programming and compiling variables to assume that the CPU architecture won't matter. The programs we are running were aimed at super-computers. Support for ARMv8-A in Linux is from around 2012. It's a long while since I used the first generation 6502 assembler. The original ARM was hard-wired, no Microcode (the Hardware Abstraction Layer) that translates the executable program into the chip's reduced instruction set. Even it ran an executable in Linux, these RISC chips are aimed at low power devices and will have (IIRC) an external L3 cache typically from 256KB to 4MB. Without architecture targeted programming/compilation, plus deep cache, don't expect data and cpu intensive programs (like CPDN) to behave nicely on a RISC device. ______________________________________________ The cache problem I can understand, only now they have started to increase the cache size but still nowhere near the required amount. Les, the instruction sets SSE2 and SSE4 are in Linux. The others also, that is why we are running WU's in Linux on x86 and x64. |
Send message Joined: 15 May 09 Posts: 4540 Credit: 19,018,099 RAC: 20,856 |
The program uses one of the SSE instruction sets. I remember when this came in and older CPU's that didn't support SSE2 became obsolete as far as CPDN is concerned. Not sure whether SSE4 is a requirement now or not. Linux or other OS having SSE2/4 may be needed but the CPU needs to support the instruction set as well. |
Send message Joined: 6 Aug 04 Posts: 195 Credit: 28,343,308 RAC: 10,415 |
The program uses one of the SSE instruction sets. SSE2 was first supported around 2000 on Pentium devices as part of INTEL proprietary IA-32 architecture, a step beyond the late-1990's INTEL MMX instruction set. AMD provided an emulation of IA-32 instructions on Athlon devices. SSE2 was (IIRC) was the limit to use INTEL P4 and AMD Athlon devices for early CPDN contributors. IIRC the SSE2 instruction set (or emulation by the Hardware Abstraction Layer) of the target CPU is essential for CPDN. |
Send message Joined: 7 Aug 04 Posts: 2187 Credit: 64,822,615 RAC: 5,275 |
With original cpdn and the initial boinc cpdn, not even SSE was needed as a Pentium II could run it. I can't remember when it happened but then the base became SSE sometime between 2004 and 2006. And then in 2009, new executables were compiled that required SSE2. I don't believe that any further CPU requirements exist for the wah2 or hadam type models beyond SSE2 and intel/amd x86/x86_64 type CPUs. |
Send message Joined: 29 Oct 17 Posts: 1049 Credit: 16,432,494 RAC: 17,331 |
Just came across this thread. OpenIFS has been successfully compiled and run on an ARM device. If you look at the list of applications on the CPDN pages you'll see it listed. It did not run particularly fast but that's fairly normal for porting a big model code to a new processor. I don't believe there are any plans to do much more with it. |
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