Author Topic: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2  (Read 1998 times)

Offline W1nTry

  • Administrator
  • Akatsuki
  • *****
  • Posts: 11329
  • Country: tt
  • Chakra 109
  • Referrals: 3
    • View Profile
  • CPU: Intel Core i7 3770
  • GPU: Gigabyte GTX 1070
  • RAM: 2x8GB HyperX DDR3 2166MHz
  • Broadband: FLOW
  • Steam: W1nTry
  • XBL: W1nTry
QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« on: December 04, 2006, 02:36:27 PM »
Not that I ever even heard about this prior to this article, I just thought it was kinda cool... I make reference to quad cores, multi core and even hybrid multi cores in the subject but this is truly on a scale of Niagara from sun... try on 768 Cores...... 0_o

Quote
Azul launches Vega2 Java machines

768 cores and 768GB

By Charlie Demerjian: Monday 04 December 2006, 16:41
AZUL UNWRAPPED its newest chip the 48-core Vega2 today. It is the successor to last year's Vega1. This Java processor triples performance from the year-old part and has an attractive feature set.

Let's start out with the systems. Azul does not sell chips, only complete machines. There is a two-chip, 96 core, 48GB model 3210 and a four-chip, 96-192GB model 3220. Both are 5U machines, with the 3210 pulling about 580W max and the 3220 pulling about 1000W. There will be eight and 16 socket machines coming in 2007.

The machines are all SSI or Single System Image, all cores can see all the memory. This may not sound like much of a feat, but remember that each chip is 48 cores. This means the biggest box has 768 cores and up to 768GB of memory, every last bit accessible to each CPU.

The way it works is that each core is a simple CPU that runs one thread. The cores have 16K L1 cache, and 8 of these are connected to a single L2 cache. Those L2 caches are connected to an internal mesh, and a Vega2 is 6 of these clusters. There are 4 on chip memory controllers, supporting 12 DIMMs per CPU. The mesh connects them all in a non-blocking way.

The CPUs externally are connected via another mesh, 16 sockets means 15 links per CPU. The link is a SERDES link similar to PCIe2 in that it has an embedded clock. If you are not getting the picture, everything is connected to everything else as directly as possible.

What you end up with is a monster compute engine that plugs into a host PC. The cores themselves are tuned to run Java and other languages that live in a VM. The ISA for the Vega2 cores does not directly map to Java, but they map pretty well to the concepts in VM based languages.

One interesting bit is that the Vega2 ISA is different from the Vega1 ISA. Between the generations, a lot was learned about what works, what does not work, and how things can be sped up. Azul is claiming that Vega2 is 3x faster than Vega1, and if 2x of that came from the core doubling, the other 1x probably came from the new ISA. Since the user never sees, touches or cares about the bare metal, Azul can tweak away with impunity, and they do.

In the end, you get a box. Said box plugs into your rack and runs Java really stinking fast. The numbers they showed were SPECjbb2005, and they scored a little over 850K, beating out a Fujitsu 128 chip SPARC64 that scored over 800K. The Azul box starts at $49,995 for a 2-way and probably around $500K for the 16-way, so it is notably cheaper than the Fujitsu machine.

For perspective, the 16 chip 384-core Azul 3840 (Vega1) scored about 325K, a 2-way Core2 at 3.0GHz hits about 100K, and an Opteron takes up the rear at closer to 50K. Azul holds the absolute record and probably the perf/watt record too.

One very nice partnership is BEA, they have ported the entire portfolio of Java software to the Vega based machines, so you have a decent set of apps right off the bat. Since Java is portable (no snickering people!), theoretically you can put an Azul box on almost any machine and offload the Java processing to it.

This brings up the most important question. We asked a fiend with a long history of Java coding experience. He has written good portions of several engines that run on the Azul boxes, and also has a Vega1 box at his beck and call. He gives it a thumbs up with a few caveats.

The main one is your code must be able to utilise multiple CPUs. If each Vega2 core is equivalent to a 100MHz Intel core, and your software can only use one thread, you have a very slow box with 767 idle cores. If your code can use multiple cores, you have a machine that can truly fly through code.

Since most server code is very amenable to threading, he thinks this is not a problem for the majority of applications out there. They will just run fast on the big box humming away in the corner. One nice feature of this type of setup is consistency. Since you have so many cores, chances are they are not all working at the same time, a percentage of them will be idle at any given time.

This means that any task you fire off will be immediately serviced leading to a fairly predictable execution time. If you only have four vastly faster cores, each one will be heavily loaded, so a task might finish quickly or it might take a bit. Each Vega2 core may be slower, but it is more 'reliable' in a timing sense.

The down side to this type of box is there is no local storage, so anything persistent needs to be offloaded back to the host and saved. For transactional systems, this type of logging is critical and imposes a huge overhead on Azul boxes. They still are faster than most equivalent machines, but with the overhead end up with less of a crushing victory.

A CPU launch would not be a launch without the requisite list of partners declaring their unrequited love for the machine. Azul lined up some big ones, with BEA an obvious believer for porting the code, and BT another big one. BT has ported their Openreach B2B gateway to Azul, and since it is the world's largest gateway, yours won't be nearly as big or demanding.

In the end, the user sees a box that runs code faster, and it runs the software they want or it does not. If it does, it can be a very clear winner for a number of scenarios but not all. The geeks see an interesting architecture that is actually commercially viable instead of simply a curiosity. Whatever you see it as, you can buy one now from Azul. µ

Carigamers

QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« on: December 04, 2006, 02:36:27 PM »

Offline W1nTry

  • Administrator
  • Akatsuki
  • *****
  • Posts: 11329
  • Country: tt
  • Chakra 109
  • Referrals: 3
    • View Profile
  • CPU: Intel Core i7 3770
  • GPU: Gigabyte GTX 1070
  • RAM: 2x8GB HyperX DDR3 2166MHz
  • Broadband: FLOW
  • Steam: W1nTry
  • XBL: W1nTry
Re: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« Reply #1 on: February 09, 2007, 11:27:20 AM »
Update:
Quote
Meet Larrabee, Intel's answer to a GPU

Hello CGPUs, goodbye Nvidia

By Charlie Demerjian: Friday 09 February 2007, 14:36

WE FIRST TOLD you about Intel's GPU plans last spring, and the name, Larrabee last summer. That brings up the question of just what the heck it is, other than the utter death of Nvidia.

Intel decided to talk about Larrabee last week to VR-Zone (nice catch guys), so I guess that makes it open season on info. VRZ got it almost dead on, the target is 16 cores in the early 2009 time frame, but that is not a fixed number. Due to the architecture, that can go down in an ATI x900/x600/x300 fashion, maybe 16/8/4 cores respectively, but technically speaking it can also go up by quite a bit.

What are those cores? They are not GPUs, they are x86 'mini-cores', basically small dumb in order cores with a staggeringly short pipeline. They also have four threads per core, so a total of 64 threads per "CGPU". To make this work as a GPU, you need instructions, vector instructions, so there is a hugely wide vector unit strapped on to it. The instruction set, an x86 extension for those paying attention, will have a lot of the functionality of a GPU.

What you end up with is a ton of threads running a super-wide vector unit with the controls in x86. You use the same tools to program the GPU as you do the CPU, using the same mnemonics, and the same everything. It also makes things a snap to use the GPU as an extension to the main CPU.

Rather than making the traditional 3D pipeline of putting points in space, connecting them, painting the resultant triangles, and then twiddling them simply faster, Intel is throwing that out the window. Instead you get the tools to do things any way you want, if you can build a better mousetrap, you are more than welcome to do so. Intel will support you there.

Those are the cores, but how are they connected? That one is easy, a hugely wide bi-directional ring bus. Think four not three digits of bit width and Tbps not Gbps of bandwidth. It should be 'enough' for the average user, if you need more, well now is the time to contact your friendly Intel exec and ask.

As you can see, the architecture is stupidly scalable, if you want more CPUs, just plop them on. If you want less, delete nodes, not a big deal. That is why we said 16 but it could change on more or less on a whim. The biggest problem is bandwidth usage as a limiter to scalability. 20 and 24 core variants seem quite doable.

The current chip is 65nm and was set for first silicon in late 07 last we heard, but this was undoubtedly delayed when the project was moved from late 08 to 09. This info is for a test chip, if you see a production part, it will almost assuredly be on 45 nanometres. The one that is being worked on now is a test chip, but if it works out spectacularly, it could be made into a production piece. What would have been a hot and slow single threaded CPU is an average GPU nowadays.

Why bring up CPUs? When we first heard about Larrabee, it was undecided where the thing would slot in, CPU or GPU. It could have gone the way of Keifer/Kevet, or been promoted to full CPU status. There was a lot of risk in putting out an insanely fast CPU that can't do a single thread at speed to save its life.

The solution would be to plop a Merom or two in the middle, but seeing as the chip was already too hot and big, that isn't going to happen, so instead a GPU was born. I would think that the whole GPU notion is going away soon as the whole concept gets pulled on die, or more likely adapted as tiles on a "Fusion like" marchitecture.

In any case, the whole idea of a GPU as a separate chip is a thing of the past. The first step is a GPU on a CPU like AMD's Fusion, but this is transitional. Both sides will pull the functionality into the core itself, and GPUs will cease to be. Now do you see why Nvidia is dead?

So, in two years, the first steps to GPUs going away will hit the market. From there, it is a matter of shrinking and adding features, but there is no turning back. Welcome the CGPU. Now do you understand why AMD had to buy ATI to survive? µ
« Last Edit: February 09, 2007, 10:19:53 PM by W1nTry »

Offline Prowl

  • AdvancedTactics
  • Jonin
  • *
  • Posts: 503
  • Country: 00
  • Chakra -25
  • Referrals: 0
    • View Profile
  • CPU: i7 3930k
  • GPU: Asus 670
  • RAM: ddr3 2000
  • Broadband: FLOW
  • Origin ID: Acurus
Re: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« Reply #2 on: February 09, 2007, 02:24:05 PM »
now all we need are more real java apps.
Lian LI PC70B
Corsair 850w psu
Asus gtx670 direct cuii
16 gigs ddr3 2000
Asus P9X79 WS PRO
Intel i7 3930k @ 3.9
128 gig ssd boot
1 gig programs
3 gig data
2x 1500 gig sata2 raid 1
Windows 7 x64
SUSE x64
Samsung 21" 215TW Wide screen LCD
Dell U2711 27" wide screen LCD

Offline TriniXaeno

  • Administrator
  • Akatsuki
  • *****
  • Posts: 18836
  • Country: tt
  • Chakra 14
    • :ps3::wii::xbox360:
  • Referrals: 35
    • View Profile
    • http://www.carigamers.com
  • CPU: Intel Core i7-2600K
  • GPU: Geforce GTX 680 2GB
  • RAM: 16GB
  • Broadband: :flow:
  • MBL: Nexus 5x
  • PSN: TriniXaeno
  • XBL: TriniXaeno
Re: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« Reply #3 on: February 09, 2007, 05:56:43 PM »
WOW

This is amazingly scary news. Imagine having to change your CPU just to change your graphics power.

It's not a mundane peripheral like say a network card or a sound card that pretty much remains static for the life of your PC.

No sir, graphics is something we change with regularity.

Scary indeed.

Offline TrinireturnofGamez

  • AdvancedTactics
  • Akatsuki
  • *
  • Posts: 3458
  • Chakra 4
  • Referrals: 0
    • View Profile
Re: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« Reply #4 on: February 09, 2007, 08:11:14 PM »
  I don't think graphics cards will die anytime soon  , they'll just turn out as more powerful processors that are general purpose enough to run all your programs like a CPU .
http://freetrinipoetry.blogspot.com/

Core 2 duo E6600
Asus mobo
Radeon HD 4770
2 gigs DDR2 667 + 2 gigs DDR 800 OCZ

Carigamers

Re: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« Reply #4 on: February 09, 2007, 08:11:14 PM »

Offline Arcmanov

  • Administrator
  • Akatsuki
  • *****
  • Posts: 10642
  • Country: tt
  • Chakra 126
  • Gamer/Enthusiast
    • :n64: :gcn: :dreamcast: :xbox360: :computer:
  • Referrals: 1
    • View Profile
    • Arcmanov's rig
  • CPU: Intel Core i7 5820K @ 4.3 GHz
  • GPU: 2 x [Gigabyte] GeForce GTX 1070
  • RAM: 4 x 8GB G.Skill.TridentZ RGB DDR4-2400
  • Broadband: :flow:
  • MBL: LG V20
  • Origin ID: Arcmanov
  • PSN: Arcmanov
  • Steam: Arcmanov
  • XBL: Arcmanov
Re: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« Reply #5 on: February 09, 2007, 09:02:08 PM »
No sir, graphics is something we change with regularity.

This I can certainly attest to..... ^_^
Systems United Navy - Accipiens ad Astra


Carigamers

Re: QC.. bleh, Nehalem.. blah, GPCPU.. bluh... Vega2
« Reply #5 on: February 09, 2007, 09:02:08 PM »

 


* ShoutBox

Refresh History
  • Crimson609: yea everything cool how are you?
    August 10, 2022, 07:26:15 AM
  • Pain_Killer: Good day, what's going on with you guys? Is everything Ok?
    February 21, 2021, 05:30:10 PM
  • Crimson609: BOOM covid-19
    August 15, 2020, 01:07:30 PM
  • Shinsoo: bwda 2020 shoutboxing. omg we are in the future and in the past at the same time!
    March 03, 2020, 06:42:47 AM
  • TriniXjin: Watch Black Clover Everyone!
    February 01, 2020, 06:30:00 PM
  • Crimson609: lol
    February 01, 2020, 05:05:53 PM
  • Skitz: So fellas how we go include listing for all dem parts for pc on we profile but doh have any place for motherboard?
    January 24, 2020, 09:11:33 PM
  • Crimson609: :ph34r:
    January 20, 2019, 09:23:28 PM
  • Crimson609: Big up ya whole slef
    January 20, 2019, 09:23:17 PM
  • protomanex: Gyul like Link
    January 20, 2019, 09:23:14 PM
  • protomanex: Man like Kitana
    January 20, 2019, 09:22:39 PM
  • protomanex: Man like Chappy
    January 20, 2019, 09:21:53 PM
  • protomanex: Gyul Like Minato
    January 20, 2019, 09:21:48 PM
  • protomanex: Gyul like XJin
    January 20, 2019, 09:19:53 PM
  • protomanex: Shout out to man like Crimson
    January 20, 2019, 09:19:44 PM
  • Crimson609: shout out to gyal like Corbie Gonta
    January 20, 2019, 09:19:06 PM
  • cold_187: Why allur don't make a discord or something?
    December 03, 2018, 06:17:38 PM
  • Red Paradox: https://www.twitch.tv/flippay1985 everyday from 6:00pm
    May 29, 2018, 09:40:09 AM
  • Red Paradox: anyone play EA Sports UFC 3.. Looking for a challenge. PSN: Flippay1985 :)
    May 09, 2018, 11:00:52 PM
  • cold_187: @TriniXjin not really, I may have something they need (ssd/ram/mb etc.), hence why I also said "trade" ;)
    February 05, 2018, 10:22:14 AM

SimplePortal 2.3.3 © 2008-2010, SimplePortal