Arm-Based Computing Platform Solutions Accelerating Your Arm Project Development
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Supermicro GPU Solutions Optimized for NVIDIA Nvlink
SuperServers Optimized For NVIDIA® Tesla® GPUs Maximizing Throughput and Scalability 16 Tesla® V100 GPUs With NVLink™ and NVSwitch™ Most Powerful Solution for Deep Learning Training • New Supermicro NVIDIA® HGX-2 based platform • 16 Tesla® V100 SXM3 GPUs (512GB total GPU memory) • 16 NICs for GPUDirect RDMA • 16 hot-swap NVMe drive bays • Fully configurable to order SYS-9029GP-TNVRT 8 Tesla® V100 GPUs With NVLink™ 4 Tesla® V100 GPUs With NVLink™ SYS-1029GQ-TVRT SYS-4029GP-TVRT www.supermicro.com/GPU March 2019 Maximum Acceleration for AI/DL Training Workloads PERFORMANCE: Highest Parallel peak performance with NVIDIA Tesla V100 GPUs THROUGHPUT: Best in class GPU-to-GPU bandwidth with a maximum speed of 300GB/s SCALABILITY: Designed for direct interconections between multiple GPU nodes FLEXIBILITY: PCI-E 3.0 x16 for low latency I/O expansion capacity & GPU Direct RDMA support DESIGN: Optimized GPU cooling for highest sustained parallel computing performance EFFICIENCY: Redundant Titanium Level power supplies & intelligent cooling control Model SYS-1029GQ-TVRT SYS-4029GP-TVRT • Dual Intel® Xeon® Scalable processors with 3 UPI up to • Dual Intel® Xeon® Scalable processors with 3 UPI up to 10.4GT/s CPU Support 10.4GT/s • Supports up to 205W TDP CPU • Supports up to 205W TDP CPU • 8 NVIDIA® Tesla® V100 GPUs • 4 NVIDIA Tesla V100 GPUs • NVIDIA® NVLink™ GPU Interconnect up to 300GB/s GPU Support • NVIDIA® NVLink™ GPU Interconnect up to 300GB/s • Optimized for GPUDirect RDMA • Optimized for GPUDirect RDMA • Independent CPU and GPU thermal zones -
Stochastic Modeling and Performance Analysis of Multimedia Socs
Stochastic Modeling and Performance Analysis of Multimedia SoCs Balaji Raman, Ayoub Nouri, Deepak Gangadharan, Marius Bozga, Ananda Basu, Mayur Maheshwari, Jérôme Milan, Axel Legay, Saddek Bensalem, Samarjit Chakraborty To cite this version: Balaji Raman, Ayoub Nouri, Deepak Gangadharan, Marius Bozga, Ananda Basu, et al.. Stochastic Modeling and Performance Analysis of Multimedia SoCs. SAMOS XIII - Embedded Computer Sys- tems: Architectures, Modeling, and Simulation, Jul 2013, Agios konstantinos, Samos Island, Greece. pp.145-154, 10.1109/SAMOS.2013.6621117. hal-00878094 HAL Id: hal-00878094 https://hal.archives-ouvertes.fr/hal-00878094 Submitted on 29 Oct 2013 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Stochastic Modeling and Performance Analysis of Multimedia SoCs Balaji Raman1, Ayoub Nouri1, Deepak Gangadharan2, Marius Bozga1, Ananda Basu1, Mayur Maheshwari1, Jerome Milan3, Axel Legay4, Saddek Bensalem1, and Samarjit Chakraborty5 1 VERIMAG, France, 2 Technical Univeristy of Denmark, 3 Ecole Polytechnique, France, 4 INRIA Rennes, France, 5 Technical University of Munich, Germany. E-mail: [email protected] Abstract—Quality of video and audio output is a design-time to estimate buffer size for an acceptable output quality. The constraint for portable multimedia devices. -
GPU Developments 2018
GPU Developments 2018 2018 GPU Developments 2018 © Copyright Jon Peddie Research 2019. All rights reserved. Reproduction in whole or in part is prohibited without written permission from Jon Peddie Research. This report is the property of Jon Peddie Research (JPR) and made available to a restricted number of clients only upon these terms and conditions. Agreement not to copy or disclose. This report and all future reports or other materials provided by JPR pursuant to this subscription (collectively, “Reports”) are protected by: (i) federal copyright, pursuant to the Copyright Act of 1976; and (ii) the nondisclosure provisions set forth immediately following. License, exclusive use, and agreement not to disclose. Reports are the trade secret property exclusively of JPR and are made available to a restricted number of clients, for their exclusive use and only upon the following terms and conditions. JPR grants site-wide license to read and utilize the information in the Reports, exclusively to the initial subscriber to the Reports, its subsidiaries, divisions, and employees (collectively, “Subscriber”). The Reports shall, at all times, be treated by Subscriber as proprietary and confidential documents, for internal use only. Subscriber agrees that it will not reproduce for or share any of the material in the Reports (“Material”) with any entity or individual other than Subscriber (“Shared Third Party”) (collectively, “Share” or “Sharing”), without the advance written permission of JPR. Subscriber shall be liable for any breach of this agreement and shall be subject to cancellation of its subscription to Reports. Without limiting this liability, Subscriber shall be liable for any damages suffered by JPR as a result of any Sharing of any Material, without advance written permission of JPR. -
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Case M:07-cv-01826-WHA Document 249 Filed 11/08/2007 Page 1 of 34 1 BOIES, SCHILLER & FLEXNER LLP WILLIAM A. ISAACSON (pro hac vice) 2 5301 Wisconsin Ave. NW, Suite 800 Washington, D.C. 20015 3 Telephone: (202) 237-2727 Facsimile: (202) 237-6131 4 Email: [email protected] 5 6 BOIES, SCHILLER & FLEXNER LLP BOIES, SCHILLER & FLEXNER LLP JOHN F. COVE, JR. (CA Bar No. 212213) PHILIP J. IOVIENO (pro hac vice) 7 DAVID W. SHAPIRO (CA Bar No. 219265) ANNE M. NARDACCI (pro hac vice) KEVIN J. BARRY (CA Bar No. 229748) 10 North Pearl Street 8 1999 Harrison St., Suite 900 4th Floor Oakland, CA 94612 Albany, NY 12207 9 Telephone: (510) 874-1000 Telephone: (518) 434-0600 Facsimile: (510) 874-1460 Facsimile: (518) 434-0665 10 Email: [email protected] Email: [email protected] [email protected] [email protected] 11 [email protected] 12 Attorneys for Plaintiff Jordan Walker Interim Class Counsel for Direct Purchaser 13 Plaintiffs 14 15 UNITED STATES DISTRICT COURT 16 NORTHERN DISTRICT OF CALIFORNIA 17 18 IN RE GRAPHICS PROCESSING UNITS ) Case No.: M:07-CV-01826-WHA ANTITRUST LITIGATION ) 19 ) MDL No. 1826 ) 20 This Document Relates to: ) THIRD CONSOLIDATED AND ALL DIRECT PURCHASER ACTIONS ) AMENDED CLASS ACTION 21 ) COMPLAINT FOR VIOLATION OF ) SECTION 1 OF THE SHERMAN ACT, 15 22 ) U.S.C. § 1 23 ) ) 24 ) ) JURY TRIAL DEMANDED 25 ) ) 26 ) ) 27 ) 28 THIRD CONSOLIDATED AND AMENDED CLASS ACTION COMPLAINT BY DIRECT PURCHASERS M:07-CV-01826-WHA Case M:07-cv-01826-WHA Document 249 Filed 11/08/2007 Page 2 of 34 1 Plaintiffs Jordan Walker, Michael Bensignor, d/b/a Mike’s Computer Services, Fred 2 Williams, and Karol Juskiewicz, on behalf of themselves and all others similarly situated in the 3 United States, bring this action for damages and injunctive relief under the federal antitrust laws 4 against Defendants named herein, demanding trial by jury, and complaining and alleging as 5 follows: 6 NATURE OF THE CASE 7 1. -
An Emerging Architecture in Smart Phones
International Journal of Electronic Engineering and Computer Science Vol. 3, No. 2, 2018, pp. 29-38 http://www.aiscience.org/journal/ijeecs ARM Processor Architecture: An Emerging Architecture in Smart Phones Naseer Ahmad, Muhammad Waqas Boota * Department of Computer Science, Virtual University of Pakistan, Lahore, Pakistan Abstract ARM is a 32-bit RISC processor architecture. It is develop and licenses by British company ARM holdings. ARM holding does not manufacture and sell the CPU devices. ARM holding only licenses the processor architecture to interested parties. There are two main types of licences implementation licenses and architecture licenses. ARM processors have a unique combination of feature such as ARM core is very simple as compare to general purpose processors. ARM chip has several peripheral controller, a digital signal processor and ARM core. ARM processor consumes less power but provide the high performance. Now a day, ARM Cortex series is very popular in Smartphone devices. We will also see the important characteristics of cortex series. We discuss the ARM processor and system on a chip (SOC) which includes the Qualcomm, Snapdragon, nVidia Tegra, and Apple system on chips. In this paper, we discuss the features of ARM processor and Intel atom processor and see which processor is best. Finally, we will discuss the future of ARM processor in Smartphone devices. Keywords RISC, ISA, ARM Core, System on a Chip (SoC) Received: May 6, 2018 / Accepted: June 15, 2018 / Published online: July 26, 2018 @ 2018 The Authors. Published by American Institute of Science. This Open Access article is under the CC BY license. -
It's Meant to Be Played
Issue 10 $3.99 (where sold) THE WAY It’s meant to be played Ultimate PC Gaming with GeForce All the best holiday games with the power of NVIDIA Far Cry’s creators outclass its already jaw-dropping technology Battlefi eld 2142 with an epic new sci-fi battle World of Warcraft: Company of Heroes Warhammer: The Burning Crusade Mark of Chaos THE NEWS Notebooks are set to transform Welcome... PC gaming Welcome to the 10th issue of The Way It’s Meant To Be Played, the he latest must-have gaming system is… T magazine dedicated to the very best in a notebook PC. Until recently considered mainly PC gaming. In this issue, we showcase a means for working on the move or for portable 30 games, all participants in NVIDIA’s presentations, laptops complete with dedicated graphic The Way It’s Meant To Be Played processing units (GPUs) such as the NVIDIA® GeForce® program. In this program, NVIDIA’s Go 7 series are making a real impact in the gaming world. Latest thing: Laptops developer technology engineers work complete with dedicated The advantages are obvious – gamers need no longer be graphic processing units with development teams to get the are making an impact in very best graphics and effects into tied to their desktop set-up. the gaming world. their new titles. The games are then The new NVIDIA® GeForce® Go 7900 notebook rigorously tested by three different labs GPUs are designed for extreme HD gaming, and gaming at NVIDIA for compatibility, stability, and hardware specialists such as Alienware and Asus have performance to ensure that any game seen the potential of the portable platform. -
Data Sheet FUJITSU Tablet STYLISTIC M702
Data Sheet FUJITSU Tablet STYLISTIC M702 Data Sheet FUJITSU Tablet STYLISTIC M702 Designed for the toughest businesses The Fujitsu STYLISTIC M702 is the ideal choice if you are looking for a robust yet lightweight high- performance tablet PC to support you in the field and to increase business continuity. Being water- and dustproof, it protects components most frequently damaged, making it perfect for semi-ruggedized applications. The 25.7 cm (10.1-inch) STYLISTIC M702 provides protection against environmental conditions, ensuring uncompromising productivity whether exposed to rain, humidity or dust. Moreover, it can easily be integrated into your company’s Virtual Desktop Infrastructure (VDI), thus ensuring protected anytime access to your company data while its business software lets you securely manage your contacts and emails. Embedded 4G/LTE delivers latest high-speed connectivity for end-to-end performance in the most challenging situations and the Android operating system’s rich multimedia features also make it perfect for private use. Semi-Ruggedized Ensure absolute business continuity and protect your tablet from environmental conditions.Work from anywhere while exposing the tablet to rain, humidity or dust without causing any component damage. Waterproof (tested for IPX5/7/8 specifications), dustproof (tested for IP5X specification), durable with toughened glass Business Match Ultimate productivity from anywhere. Securely access your business applications, data and company intranet with the business software selection and protect -
Comparative Study of Various Systems on Chips Embedded in Mobile Devices
Innovative Systems Design and Engineering www.iiste.org ISSN 2222-1727 (Paper) ISSN 2222-2871 (Online) Vol.4, No.7, 2013 - National Conference on Emerging Trends in Electrical, Instrumentation & Communication Engineering Comparative Study of Various Systems on Chips Embedded in Mobile Devices Deepti Bansal(Assistant Professor) BVCOE, New Delhi Tel N: +919711341624 Email: [email protected] ABSTRACT Systems-on-chips (SoCs) are the latest incarnation of very large scale integration (VLSI) technology. A single integrated circuit can contain over 100 million transistors. Harnessing all this computing power requires designers to move beyond logic design into computer architecture, meet real-time deadlines, ensure low-power operation, and so on. These opportunities and challenges make SoC design an important field of research. So in the paper we will try to focus on the various aspects of SOC and the applications offered by it. Also the different parameters to be checked for functional verification like integration and complexity are described in brief. We will focus mainly on the applications of system on chip in mobile devices and then we will compare various mobile vendors in terms of different parameters like cost, memory, features, weight, and battery life, audio and video applications. A brief discussion on the upcoming technologies in SoC used in smart phones as announced by Intel, Microsoft, Texas etc. is also taken up. Keywords: System on Chip, Core Frame Architecture, Arm Processors, Smartphone. 1. Introduction: What Is SoC? We first need to define system-on-chip (SoC). A SoC is a complex integrated circuit that implements most or all of the functions of a complete electronic system. -
Overview of CPU Power Consumption and Management in Smartphones
Overview of CPU Power Consumption and Management in Smartphones Prof. Sasu Tarkoma University of Helsinki, Aalto University, Helsinki Institute for Information Technology Contents • Modern smartphone SoC and CPUs – The CPU: power states – Power management basics • Smartphone solutions – Linux CPU Frequency subsystem – Power models • Intra-device task offloading – Sensor hub – Heterogeneous multiprocessing • Computation offloading Smartphones • Smartphones have become hubs for applications and connecting with the Internet • Cloud has emerged as a backend for mobile applications • Mobile data and WiFi are the dominant protocols for connecting with Internet resources • The next generation solutions are addressing limitations of the current smartphones – Coordination of resource usage – Offloading in its many forms – Heterogeneous environment and the emergence of IoT / M2M / wearables Observations • Smartphone and mobile device hardware and software evolve rapidly • Multiple wireless protocols • Heterogeneous computing over multiple cores – Dedicated subsystems (sensor hubs) – Increasing number of sensing subsystems – Always-on sensing • Battery technology has not kept pace with the development • Software is not, in many cases, optimized • Difficult to balance between local versus distributed processing • Difficult to control traffic across interfaces Mobile Evolution 1995 2000 2005 2010 2015 Processor Single Single Single Dual-core Quad-core and beyond, auxiliary processors, sensor hubs Cellular 2G 2.5-3G 3.5G Transition 4G generation toward 4G Standard GSM GPRS HSPA HSPA, LTE LTE, LTE-A Downlink (Mb/ 0.01 0.1 1 10 100 s) Display pixels 4 16 64 256 1024 (x1000) Communicatio - - WiFi, WiFi, WiFi, Bluetooth LE, ns modules Bluetooth Bluetooth RFID Battery 1 2 3 4 5 capacity (Wh) Software (MB) 0.1 1 10 100 1000 Example Smartphone SoC Modem Subsystem Multicore Subsystem Multimedia Subsystem LTE Adreno World KRAIT CPU KRAIT CPU GPU Modem Audio, GPS,Wi-Fi, Video HW, BT,FM Accelerator L1 Cache L1 Cache s DSP DSP DSP L2 Cache Multim. -
Technical Brief
Technical Brief SLI-Ready Memory with Enhanced Performance Profiles One-Click Hassle-Free Memory Performance Boost May 2006 TB-0529-001_v01 One-Click Hassle-Free Memory Performance Boost with SLI-Ready Memory Gamers and PC enthusiasts are endlessly searching for opportunities to improve the performance of their PCs. Optimizing system performance is a function of the major components used—graphics processing unit (GPU) add-in cards, CPU, chipset, and memory. It is also a function of tuning and overclocking the various PC components. Overclocking, however, has disadvantages such as system instability and inconsistent performance measurements from one system to another. SLI-Ready memory with Enhanced Performance Profiles (EPP) is a new approach that simplifies overclocking and ensures memory and platform compatibility. The NVIDIA nForce 590 SLI core logic is the first NVIDIA® platform that supports the new EPP functionality. Memory DIMMs which receive the SLI-Ready certification are required to support EPP technology to ensure the memories can be automatically detected and their full potential realized with the NVIDIA nForce® 590 SLI® chipset. The SLI-Ready certification process ensures the memory modules have passed a comprehensive set of tests and meet the minimum requirements for delivering our customers the outstanding experience they expect from SLI systems. SLI-Ready Memory with EPP at a Glance System memory modules (DIMMs) are built using an electrically-erasable programmable read-only memory (EEPROM) that can hold up to 256 Bytes of data. The EEPROM is used to store Serial Presence Detect (SPD) information defined by JEDEC which include manufacturer part number, manufacturer name, some timing parameters, serial number, etc. -
M-Line BROCHURE
The Novasom Industries M-line was created for those advanced multimedia applications where the computing power and the presence of specific HW accelerators are needed as much as the advanced connectivity to various kinds of displays while maintaining the classic low-level industrial connectivity. Novasom Industries M11 series, based on the new Intel Apollo Lake x5 6th generation Atom CPU with Microsoft Windows 10 and UHD (4k) video capabilities, is perfect for the typical Kiosks & Digital-Signage applications. The M7 is based on the Rockchip RK3328, a 4X A53 processor and can drive UHD (4k) displays, has USB3 & 2, HDMI and supports Android OS. Complete SBC with immediate bootstrap Native Android & Linux support O.S. (M7, M8 & M9) M8 board runs Qualcomm Snapdragon 410E with Android and Windows 10 IoT and can be connected to FHD displays. Native Window 10 and Linux (M11) Embedded UPS manager with battery and Redundant The M9, based on the Rockchip RK3399 offers an android like Power Input experience and high side multimedia application with UHD, multiple video and camera input. HD Audio output and Optical SPDIF mPCIe interface slot (M9, M7 & M11) All the M-Line boards support Linux OS. Fluidity and no scratch on Heavy UHD play RASPMOOD form factor for M7, M8 and M9: dimensions, guaranteed mechanical holes, expansion pin on strip, connector Fully certified board, visit kind and position are similar to the famous Pi Family. www.novasomindustries.com for details So if you've started with a toy-board and want to use in an industrial proposal, we are ready. -
QTEE STOR, Is Shown in Figure 4
Qualcomm Snapdragon, Qualcomm Trusted Execution Environment, Qualcomm Secure Storage Solutions, Qualcomm Secure Processing Unit, Qualcomm Secure File System, and Qualcomm Fast Trusted Storage are products of Qualcomm Technologies, Inc. and/or its subsidiaries. Qualcomm and Snapdragon are trademarks of Qualcomm Incorporated, registered in the United States and other countries. Other products and brand names may be trademarks or registered trademarks of their respective owners. The contents of this document are provided on an “as-is” basis without warranty of any kind. Qualcomm Technologies, Inc. specifically disclaims the implied warranties of merchantability and fitness for a particular purpose. Qualcomm Technologies, Inc. 5775 Morehouse Drive San Diego, CA 92121 U.S.A. © 2019 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. Overview .............................................................................................................................. 1 Acronyms ............................................................................................................................. 2 Limitation of pure software-based solutions ...................................................................... 3 Hardware building blocks .................................................................................................... 4 Qualcomm® Trusted Execution Environment ................................................................. 4 Hardware Crypto Engine ................................................................................................