AMD Goes Full Steam To Open-Source
AMD and now RTG (Radeon Technologies Group) are involved in a major push to open source GPU resources.
According to Ars Technica Under the handle “GPUOpen” AMD is releasing a slew of open-source software and tools to give developers of games, heterogeneous applications, and HPC applications deeper access to the GPU and GPU resources.
In a statement AMD said that as a continuation of the strategy it started with Mantle, it is giving even more control of the GPU to developers.
“ As console developers have benefited from low-level access to the GPU, AMD wants to continue to bring this level of access to the PC space.”
The AMD GPUOpen initiative is meant to give developers the ability to use assets they’ve already made for console development. They will have direct access to GPU hardware, as well as access to a large collection of open source effects, tools, libraries and SDKs, which are being made available on GitHub under an MIT open-source license.
AMD wants GPUOpen will enable console-style development for PC games through this open source software initiative. It also includes an end-to-end open source compute infrastructure for cluster-based computing and a new Linux software and driver strategy
All this ties in with AMD’s Boltzmann Initiative and an HSA (Heterogeneous System Architecture) software suite that includes an HCC compiler for C++ development. This was supposed to open the field of programmers who can use HSA. A new HCC C++ compiler was set up to enable developers to more easily use discrete GPU hardware in heterogeneous systems.
It also allows developers to convert CUDA code to portable C++. According to AMD, internal testing shows that in many cases 90 percent or more of CUDA code can be automatically converted into C++ with the final 10 percent converted manually in the widely popular C++ language. An early access program for the “Boltzmann Initiative” tools is planned for Q1 2016.
AMD GPUOpen includes a new Linux driver model and runtime targeted at HPC Cluster-Class Computing. The headless Linux driver is supposed to handle high-performance computing needs with low latency compute dispatch and PCI Express data transfers, peer-to-peer GPU support, Remote Direct Memory Access (RDMA) from InfiniBand that interconnects directly to GPU memory and Large Single Memory Allocation support.
Courtesy-Fud
AMD Appears To Be Pushing It’s Boltzmann Plan
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Troubled chipmaker AMD is putting a lot of its limited investment money into the “Boltzmann Initiative” which is uses heterogeneous system architecture ability to harness both CPU and AMD GPU for compute efficiency through software.
VR-World says that stage one results are finished and where shown off this week at SC15. This included a Heterogeneous Compute Compiler (HCC); a headless Linux driver and HSA runtime infrastructure for cluster-class, High Performance Computing (HPC); and the Heterogeneous-compute Interface for Portability (HIP) tool for porting CUDA-based applications to C++ programming.
AMD hopes the tools will drive application performance from machine learning to molecular dynamics, and from oil and gas to visual effects and computer-generated imaging.
Jim Belak, co-lead of the US Department of Energy’s Exascale Co-design Center in Extreme Materials and senior computational materials scientist at Lawrence Livermore National Laboratory said that AMD’s Heterogeneous-compute Interface for Portability enables performance portability for the HPC community.
“The ability to take code that was written for one architecture and transfer it to another architecture without a negative impact on performance is extremely powerful. The work AMD is doing to produce a high-performance compiler that sits below high-level programming models enables researchers to concentrate on solving problems and publishing groundbreaking research rather than worrying about hardware-specific optimizations.”
The new AMD Boltzmann Initiative suite includes an HCC compiler for C++ development, greatly expanding the field of programmers who can leverage HSA.
The new HCC C++ compiler is a key tool in enabling developers to easily and efficiently apply the hardware resources in heterogeneous systems. The compiler offers more simplified development via single source execution, with both the CPU and GPU code in the same file.
The compiler automates the placement code that executes on both processing elements for maximum execution efficiency.
Source- http://www.thegurureview.net/computing-category/amd-appears-to-be-pushing-its-boltzmann-plan.html
Will AMD’s Newest SoC Save The Company?
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The troubled chipmaker AMD thinks it is onto a winner with its new AMD Embedded R-Series SOC processors.
Designed for demanding embedded needs, the processors incorporate the newest AMD 64-bit x86 CPU core (“Excavator”), plus third-generation Graphics Core Next GPU architecture, and better power management for reduced energy consumption.
AMD tells us that combined, these chips provide industry-leading graphics performance and key embedded features for next-generation designs. The SOC architecture enables simplified, small form factor board and system designs from AMD customers and a number of third party development platform providers.
What AMD brings to the party is its graphics and multimedia performance, including capability for hardware-accelerated decode of 4K video playback and support for the latest DDR4 memory.
Jim McGregor, principal analyst, TIRIAS Research said that AMDs push into x86 embedded platforms is paying off with an increasing number of customers and applications.
“There is a need for immersive graphics, high-quality visualization, and parallel computing in an increasing number of embedded applications. Across these fronts, the AMD Embedded R-Series SOC is a very compelling solution.”
Scott Aylor, corporate vice president and general manager, AMD Embedded Solutions said that his outfit’s AMD Embedded R-Series SOC is a strong match for these needs in a variety of industries including digital signage, retail signage, medical imaging, electronic gaming machines, media storage, and communications and networking.
“The platform offers a strong value proposition for this next generation of high-performance, low-power embedded designs.”
The new AMD Embedded R-Series SOCs offer 22 percent improved GPU performance when compared to the 2nd Generation AMD Embedded R-Series APU2 and a 58 percent advantage against the Intel Broadwell Core i7 when running graphics-intensive benchmarks.
AMD released some of the specs for its integrated AMD Radeon graphics including:
Up to eight compute units4 and two rendering blocks
GPU clock speeds up to 800MHz resulting in 819 GFLOPS
•DirectX 12 support
Fully HSA Enabled
The AMD Embedded R-Series SOC was architected with embedded customers in mind and includes features such as industrial temperature support, dual-channel DDR3 or DDR4 support with ECC (Error Correction Code), Secure Boot, and a broad range of processor options.
It has a configurable thermal design power (cTDP) allows designers to adjust the TDPs from 12W to 35W in 1W increments for greater flexibility.
The SOC also has a 35 percent reduced footprint when compared to the 2nd Generation AMD Embedded R-Series APU, making it an excellent choice for small form factor applications.
AMD said that the range is the first embedded processor with dual-channel 64-bit DDR4 or DDR3 with Error-Correction Code (ECC), with speeds up to DDR4-2400 and DDR3-2133, and support for 1.2V DDR4 and 1.5V/1.35V DDR3.
Its dedicated AMD Secure Processor supports secure boot with AMD Hardware Validated Boot (HVB) and initiates trusted boot environment before starting x86 cores
It has a high-performance Integrated FCH featuring PCIe Gen3 USB3.0, SATA3, SD, GPIO, SPI, I2S, I2C, and UART
The AMD Embedded R-Series SOC provides industry-leading ten-year longevity of supply. The processors support Microsoft Windows 7, Windows Embedded 7 and 8 Standard, Windows 8.1, Windows 10, and AMD’s all-open Linux driver including Mentor Embedded Linux from Mentor Graphics and their Sourcery CodeBench IDE development tools.
It will be interesting to see if AMD can make up the ground it has lost on PCs and higher ticket items. Most of the company still appears to be in a holding pattern until Zen arrives.
Courtesy-http://www.thegurureview.net/computing-category/will-amds-newest-soc-save-the-company.html
AMD To Power Samsung’s Digital Media
AMD’s Embedded R-Series accelerated processing unit, previously codenamed “Bald Eagle,” is powering Samsung’s latest set-back-box digital media players.
Bald Eagle was designed for high performance at low power with broad connectivity but mostly for digital signage.
It seems that new Samsung SBB-B64DV4 is intended for demanding signage applications that transform Samsung SMART Signage Displays into digital tools for a wide range of business needs.
The chipmaker claimed that by using its Embedded R-Series APUs, Samsung SBB media players for digital signage can manage HD graphics performance and support multivideo stream capabilities up to two displays, in a power efficient and ultra-compact form factor.
Scott Aylor, corporate vice president and general manager, AMD Embedded Solutions said that digital signage is a key vertical for the AMD Embedded business.
“The AMD Embedded R-Series APU enables leading digital signage providers to harness high levels of compute and graphics performance within a low-power design envelope. AMD Embedded Solutions help designers at Samsung achieve aggressive form factor goals and drive down system costs while providing the rich multimedia their digital signage customers’ demand,” he said.
The AMD Embedded RX-425BB APU combines an x86 CPU with an integrated, discrete-class AMD Radeon R6 graphics processing unit in a low-power configuration to minimize heat dissipation constraints and meet energy efficiency requirements.
The processor uses AMD’s latest Graphics Core Next architecture, created for advanced graphics applications and parallel processing capabilities.
Will AMD’s Kaveri Launch As Godavari?
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The new desktop refresh according to SweClockers is going to end up with A10-8850K branding. The new processor will get a 100MHz faster turbo clock and is based on the same 28nm manufacturing process. The base CPU clock for the A10-8850K is 3.7GHz, the same speed as the AMD A10-7850K, but the Turbo clock will jump to 4.1GHz with the new one. The A10-7850K has 4.0 GHz top turbo clock and 720 MHz GPU speed for its GCN Sea Island GPU.
The new A10-8850K will get the GPU to 856MHz. The memory speed supported stays at 2133MHz and the socket of choice remains FM2+. The TDP stays at 95W.
As you can see this is a small evolution and you can expect some cool parts for AMD on the desktop side in the latter part of 2016, some eighteen months from now, in 14nm.
AMD Changes Kaveri
Since AMD officially launched its 4th generation A-Series Kaveri APUs and lifted the NDA veil from all press materials, we noticed that it has started to use a new term to define the structure of its new Kaveri APUs. As we reported last week, AMD is now talking about Compute Cores, which practically puts CPU and GPU cores on an equal footing, suggesting that there should not be any difference between them and that some tasks, previously limited to the CPU, can be done by the GPU as well.
If you take a look at the official AMD slide below which details the three new Kaveri APUs, the A10-7850K, A10-7700K and the A8-7600, you will notice that AMD lists the flagship as the APU with 12 Compute Cores or simply four CPU and eight GPU cores. Since the Kaveri APU is actually the first APU with HSA (Heterogeneous System Architecture) support, with hUMA, or equal memory access by both CPU and the GPU, heterogeneous queuing, which allows the GPU and CPU to have equal flexibility to create/dispatch work and an ability to talk about APU GFLOPS, or combined compute power of the entire APU, it makes sense for AMD to also talk about Compute Cores.
Of course, there are still some application specific tasks where the CPU or the GPU are much better, but, according to AMD, Kaveri is the first true APU, where the GPU is not just for gaming, it can actually do much more.
AMD Senior Manager Sasa Marinkovic, Technology lead for the Client Business Unit, said: “At AMD, we recognize that our customers often think of processors (CPUs) and graphics cards (GPUs) in terms of the number of cores that each product has. We have established a definition of the term “Compute Core” so that we are taking a consistent and transparent approach to describing the number of cores in our HSA-enabled APUs. A Compute Core can be either a CPU core or GPU core i.e. Kaveri can have up to 12 Compute Cores (4 CPU and 8 GPU).”
Although it does sound like a marketing gimmick, but actually is not due to HSA, it will definitely mark a new way for AMD to market/sell its APUs and it will definitely simplify the shopping experience for many casual buyers, more Compute Cores, more performance.