Kool

So I don't know the particular implications of this project in the world of nlves but I assume it could mix things up. Specs and details are summarized below:

Parallella: A Supercomputer for Everyone
Kickstarter Summary: Goal is to make parallel computing available to everyone via mass produced high performance computers inspired by the Rasberry Pi and Arduino design. If you happen to be unfamiliar with these two companies, they've been releasing very basic computers that are about the size of a portable HDD for 50 to 200 dollars. Adapteva (Parallella's developer) diverges only slightly from this m.o. but the result is inspired. They plan to release systems capable of (consumer level) parallel computing for a meagre 100 bucks. I am a bit skeptical but I'll include all the specs I comprehend or care about, and links to more comprehensive sources for your perusal.
Specs:
* Dual-core ARM A9 CPU
* Epiphany Multicore Accelerator (16 or 64 cores)
* Just 1 gig of ram (?)
* Two "general purpose" expansion connectors
* Micro SD/ HDMI/ Ethernet
* Ships with Ubuntu
* Ships with Adapteva's developer and programmer tools °

°Serious note: From what I gather, a lot of development will have to be done to make parallella, and similar systems, into a viable option for video/graphics editing. I may be wrong, but I currently am under the impression that graphical NVLE's (or similar) applications have not been developed to exploit the capabilities offered by these systems.

I will add more sources about this if people are interested, particularly about the implications to non-linear video editing systems and such, but I really don't know much about it. Just thought that it's a very interesting project and wanted to offer it up to the community for appraisal.

Makes me believe they're talking about a frequency band and accidentally hit 'm' instead of 'g.' I am clueless about this.

@CRFilms

Yep, just they all have very little practical use. Good for headlines, yes.

HPCwire says Adapteva's long term plan is for volume-production of their Epiphany accelerator chip.

The company is initially aiming Epiphany at embedded and mobile device applications with a need for lots of flops -- codes such as image recognition, signal processing, game physics, and the like. But since these same attributes of high flops and low power are also critical to supercomputing, the company is looking to break into the HPC business as well.

http://www.hpcwire.com/hpcwire/2012-09-28/adapteva_launches_crowd-source_funding_for_its_floating_point_accelerator.html

Sounds cool. I just contributed.

@brianluce .. Looking good so far almost $100K in less than one day

Does not have a good aproach since A9 arm will never be super computer Lol. The accelerators canot be super computer. Would be beter to have CP-GPU computing, like AMD in Trinity. Also nanometer wise, these ARM arquitecture are not good enough for Power to heatr disipation ratio.

GPU-CPU computing is future, no ARM cortex cores alone. Those accelerators also 64 cores of what? ARM, Paralell computing like GPU? For me thech like this can only come from

Intel, AMD/Ati / Nvidia, TSMC, and maybe ARM the european golden boy. Even china has developed a chip recently in 2012 (copy intel arquitecture)

Ive seen so many techs fail in time for not having proper implementation of foundrys and resourses to develop new materials and stuff.

So dont expect anything in lithography from this "say so" manufacturers.

@endotoxic

Check their site.

It is not ARM. It is highly custom RISC cores with very specific RAM architecture making it unsuitable for most tasks. It fully lacks any cache in this parallel parts, btw.

I dunno - I'm just researching all this here - you seem to be hinting that this might all be an elaborate hoax.

It is not hoax, it just just product with company that do ot have any good record, seems to be in desperate need of money and company that is offering very doubtful product to masses who really do not understand a heck.

@Vitaliy_Kiselev

They state that it uses an A9, the epiphany provides the Parallel Processing .. do you think that is a mistake or typo?

@Vitaliy_Kiselev I am getting confused then.

I read this on the kickstarter page:

The following list shows the major components planned for the Parallella computer:
Dual-core ARM A9 CPU
Epiphany Multicore Accelerator (16 or 64 cores)

My simplistic understanding, the Epiphany is the fp chip for the arm

@Vitality_Kiselev

ARM : Advanced RISC Machine. They are RISC based, arm is a "complete" solution via hardware. Mainly they use their OS inside ROM from Special RAM as you said. They usually dont run complex OS like Mac or windows. Mainly uses Linux small distros for...lets say..Superkmarket money cashiers...Money expender in banks etc.

So..lets put things simple.

RISC is a prosessor architecture. Example..Was used in ALL machinotsh machines before intel era. The advantages of RISC arquitecture was it reduced instruction set. For example INTEL pentium prossesor used to had a pipeline were all prosesses where made of 34 steps. AMD original Athlon had on its counter part only 16 steps in the same x86 core, making it more efficient PER CLOCK. Thats why INTEL on that era was more prone to errors, since 36 steps por prosessing instruction and poor litography made too many mistakes, so reprosesing was shit, going back to cycle again.

RISC processors are good, even today all ARM is based on that short instructions, BUT for todays mega complex software, they are more like not too good to use them, even if they have good litography, they also have more electric leaks when Nanometer prosses is smaller and smaller, since atoms "scape" from layer of copper and rare metals like indiun antimonite and shit like that.

The only advantage of ARM as vitaly mentiones are its low power, and low requirements to function properly, but PLEASE dont belive super computers from this arquitecture since its not anymore the better one.

I like RISC MORE than x86 since they are more efficient,but for today standars there should be a redesign in it, making it more programable, and less instruction fixed.