Introducing the New 11Th Gen Intel® Core™ Desktop Processors
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Inside Intel® Core™ Microarchitecture Setting New Standards for Energy-Efficient Performance
White Paper Inside Intel® Core™ Microarchitecture Setting New Standards for Energy-Efficient Performance Ofri Wechsler Intel Fellow, Mobility Group Director, Mobility Microprocessor Architecture Intel Corporation White Paper Inside Intel®Core™ Microarchitecture Introduction Introduction 2 The Intel® Core™ microarchitecture is a new foundation for Intel®Core™ Microarchitecture Design Goals 3 Intel® architecture-based desktop, mobile, and mainstream server multi-core processors. This state-of-the-art multi-core optimized Delivering Energy-Efficient Performance 4 and power-efficient microarchitecture is designed to deliver Intel®Core™ Microarchitecture Innovations 5 increased performance and performance-per-watt—thus increasing Intel® Wide Dynamic Execution 6 overall energy efficiency. This new microarchitecture extends the energy efficient philosophy first delivered in Intel's mobile Intel® Intelligent Power Capability 8 microarchitecture found in the Intel® Pentium® M processor, and Intel® Advanced Smart Cache 8 greatly enhances it with many new and leading edge microar- Intel® Smart Memory Access 9 chitectural innovations as well as existing Intel NetBurst® microarchitecture features. What’s more, it incorporates many Intel® Advanced Digital Media Boost 10 new and significant innovations designed to optimize the Intel®Core™ Microarchitecture and Software 11 power, performance, and scalability of multi-core processors. Summary 12 The Intel Core microarchitecture shows Intel’s continued Learn More 12 innovation by delivering both greater energy efficiency Author Biographies 12 and compute capability required for the new workloads and usage models now making their way across computing. With its higher performance and low power, the new Intel Core microarchitecture will be the basis for many new solutions and form factors. In the home, these include higher performing, ultra-quiet, sleek and low-power computer designs, and new advances in more sophisticated, user-friendly entertainment systems. -
Mac Labs. More Creativity
Mac labs. More creativity. More engagement. More learning. Every Mac comes ready for 21st-century learning. Mac OS X Server creates the ultimate lab environment. Creativity and innovation are critical skills in the modern Mac OS X Server includes simplified tools for creating wikis and workplace, which makes them critical skills to teach today’s blogs, so students and staff can set up and manage them with students. Apple offers comprehensive lab solutions for your little or no help from IT. The Spotlight Server feature makes it school or university that will creatively engage students and easy for students collaborating on projects to find and view motivate them to take an interest in their own learning. The content stored anywhere on the network. Of course, access iLife ’09 suite of applications comes standard on every Mac, controls are built in, so they only get the search results they’re so students can immediately begin creating podcasts, editing authorised to see. Mac OS X Server also allows for real-time videos, composing music, producing photo essays and more. streaming of audio and video content, which lets everyone get right to work instead of waiting for downloads – saving major Mac or PC? Have both. storage across your network. Now one lab really can solve all your computing needs. Every Mac is powered by an Intel processor and features Launch careers from your Mac lab. Mac OS X – the world’s most advanced operating system. As an Apple Authorised Training Centre for Education, your Mac OS X comes with an amazing dual-boot feature called school can build a bridge between students and real-world Boot Camp that lets students run Windows XP or Vista natively careers. -
Data Sampling on MDS-Resistant 10Th Generation Intel Core (Ice Lake) 1
Data Sampling on MDS-resistant 10th Generation Intel Core (Ice Lake) Daniel Moghimi Worcester Polytechnic Institute, Worcester, MA, USA Abstract the store buffer. MSBDS has been shown in attacks on the kernel space as well as on SGX [1]. In addition to the leakage Microarchitectural Data Sampling (MDS) is a set of hardware component, MSBDS can also be turned around easily to tran- vulnerabilities in Intel CPUs that allows an attacker to leak siently inject values into a victim, an attack technique known bytes of data from memory loads and stores across various as Load Value Injection (LVI) [14]. security boundaries. On affected CPUs, some of these vulner- abilities were patched via microcode updates. Additionally, To mitigate these vulnerabilities, Intel released software Intel announced that the newest microarchitectures, namely workarounds and microcode updates for affected CPUs [4]. Cascade Lake and Ice Lake, were not affected by MDS. While One of the most recent microarchitectures, Ice Lake, is re- Cascade Lake turned out to be vulnerable to the ZombieLoad ported to be unaffected by MDS attacks [6,8]. Intel has also v2 MDS attack (also known as TAA), Ice Lake was not af- explicitly listed Ice Lake processors as not being vulnera- fected by this attack. ble to LVI-SB [14], which exploits MSBDS for Load Value Injection [7]. In this technical report, we show a variant of MSBDS (CVE- 2018-12126), an MDS attack, also known as Fallout, that To better analyze the MDS vulnerabilities, and potentially works on Ice Lake CPUs. This variant was automatically find new variants, Moghimi et al. -
Integrated Step-Down Converter with SVID Interface for Intel® CPU
Product Order Technical Tools & Support & Folder Now Documents Software Community TPS53820 SLUSE33 –FEBRUARY 2020 Integrated Step-Down Converter with SVID Interface for Intel® CPU Power Supply 1 Features 3 Description The TPS53820 device is D-CAP+ mode integrated 1• Single chip to support Intel VR13.HC SVID POL applications step-down converter for low current SVID rails of Intel CPU power supply. It provides up to two outputs to • Two outputs to support VCCANA (5.5 A) and power the low current SVID rails such as VCCANA P1V8 (4 A) (5.5 A) and P1V8 (4 A). The device employs D-CAP+ • D-CAP+™ Control for Fast Transient Response mode control to provide fast load transient • Wide Input Voltage (4.5 V to 15 V) performance. Internal compensation allows ease of use and reduces external components. • Differential Remote Sense • Programmable Internal Loop Compensation The device also provides telemetry, including input voltage, output voltage, output current and • Per-Phase Cycle-by-Cycle Current Limit temperature reporting. Over voltage, over current and • Programmable Frequency from 800 kHz to 2 MHz over temperature protections are provided as well. 2 • I C System Interface for Telemetry of Voltage, The TPS53820 device is packaged in a thermally Current, Output Power, Temperature, and Fault enhanced 35-pin QFN and operates between –40°C Conditions and 125°C. • Over-Current, Over-Voltage, Over-Temperature (1) protections Table 1. Device Information • Low Quiescent Current PART NUMBER PACKAGE BODY SIZE (NOM) • 5 mm × 5 mm, 35-Pin QFN, PowerPAD Package TPS53820 RWZ (35) 5 mm × 5 mm (1) For all available packages, see the orderable addendum at 2 Applications the end of the data sheet. -
8Th Generation Intel® Core™ Processors Product Brief
PRODUCT BRIEF 8TH GENERATION INTEL® CORE™ PROCESSORS Mobile U-Series: Peak Performance on the Go The new 8th generation Intel® Core™ Processor U-series—for sleek notebooks and 2 in 1s elevates your computing experience with an astounding 40 percent leap in productivity performance over 7th Gen PCs,1 brilliant 4K Ultra HD entertainment, and easier, more convenient ways to interact with your PC. With 10 hour battery life2 and robust I/O support, Intel’s first quad-core U-series processors enable portable, powerhouse thin and light PCs, so you can accomplish more on the go. Extraordinary Performance and Responsiveness With Intel’s latest power-efficient microarchitecture, advanced process technology, and silicon optimizations, the 8th generation Intel Core processor (U-series) is Intel’s fastest 15W processor3 with up to 40 percent greater productivity than 7th Gen processors and 2X more productivity vs. comparable 5-year-old processors.4 • Get fast and responsive web browsing with Intel® Speed Shift Technology. • Intel® Turbo Boost Technology 2.0 lets you work more productively by dynamically controlling power and speed—across cores and graphics— boosting performance precisely when it is needed, while saving energy when it counts. • With up to four cores, 8th generation Intel Core Processor U-series with Intel® Hyper-Threading Technology (Intel® HT Technology) supports up to eight threads, making every day content creation a compelling experience on 2 in 1s and ultra-thin clamshells. • For those on the go, PCs enabled with Microsoft Windows* Modern Standby wake instantly at the push of a button, so you don’t have to wait for your system to start up. -
6Th Gen Intel® Core™ Desktop Processor Product Brief
Product Brief 6th Gen Intel® Core™ Processors for Desktops: S-series LOOKING FOR AN AMAZING PROCESSOR for your next desktop PC? Look no further than 6th Gen Intel® Core™ processors. With amazing performance and stunning visuals, PCs powered by 6th Gen Intel Core processors will help take things to the next level and transform how you use a PC. The performance of 6th Gen Intel Core processors enable great user experiences today and in the future, including no passwords and more natural user interfaces. When paired with Intel® RealSense™ technology and Windows* 10, 6th Gen Intel Core processors can help remove the hassle of remembering and typing in passwords. Product Brief 6th Gen Intel® Core™ Processors for Desktops: S-series THAT RESPONSIVE PERFORMANCE EXTRA New architecture and design in 6th Gen Intel Core processors for desktops bring: BURST OF Support for DDR4 RAM memory technology in mainstream platforms, allowing systems to have up to 64GB of memory and higher transfer PERFORMANCE speeds at lower power when compared to DDR3 (DDR4 speed 2133 MT/s at 1.2V vs DDR3 speed 1600 MT/s at 1.5). 6th Gen Intel Core i7 and Core i5 processors come with Intel® Turbo boost 2.0 Technology which gives you that extra burst of performance for those jobs that require a bit more frequency.1 Intel ® Hyper-Threading Technology1 allows each processor core to work on two tasks at the same time, improving multitasking, speeding up the workfl ow, and accomplishing more in less time. With the Intel Core i7 processor you can have up to 8 threads running at the same time. -
Introduction to Intel® FPGA IP Cores
Introduction to Intel® FPGA IP Cores Updated for Intel® Quartus® Prime Design Suite: 20.3 Subscribe UG-01056 | 2020.11.09 Send Feedback Latest document on the web: PDF | HTML Contents Contents 1. Introduction to Intel® FPGA IP Cores..............................................................................3 1.1. IP Catalog and Parameter Editor.............................................................................. 4 1.1.1. The Parameter Editor................................................................................. 5 1.2. Installing and Licensing Intel FPGA IP Cores.............................................................. 5 1.2.1. Intel FPGA IP Evaluation Mode.....................................................................6 1.2.2. Checking the IP License Status.................................................................... 8 1.2.3. Intel FPGA IP Versioning............................................................................. 9 1.2.4. Adding IP to IP Catalog...............................................................................9 1.3. Best Practices for Intel FPGA IP..............................................................................10 1.4. IP General Settings.............................................................................................. 11 1.5. Generating IP Cores (Intel Quartus Prime Pro Edition)...............................................12 1.5.1. IP Core Generation Output (Intel Quartus Prime Pro Edition)..........................13 1.5.2. Scripting IP Core Generation.................................................................... -
Intel® Omni-Path Architecture (Intel® OPA) for Machine Learning
Big Data ® The Intel Omni-Path Architecture (OPA) for Machine Learning Big Data Sponsored by Intel Srini Chari, Ph.D., MBA and M. R. Pamidi Ph.D. December 2017 mailto:[email protected] Executive Summary Machine Learning (ML), a major component of Artificial Intelligence (AI), is rapidly evolving and significantly improving growth, profits and operational efficiencies in virtually every industry. This is being driven – in large part – by continuing improvements in High Performance Computing (HPC) systems and related innovations in software and algorithms to harness these HPC systems. However, there are several barriers to implement Machine Learning (particularly Deep Learning – DL, a subset of ML) at scale: • It is hard for HPC systems to perform and scale to handle the massive growth of the volume, velocity and variety of data that must be processed. • Implementing DL requires deploying several technologies: applications, frameworks, libraries, development tools and reliable HPC processors, fabrics and storage. This is www.cabotpartners.com hard, laborious and very time-consuming. • Training followed by Inference are two separate ML steps. Training traditionally took days/weeks, whereas Inference was near real-time. Increasingly, to make more accurate inferences, faster re-Training on new data is required. So, Training must now be done in a few hours. This requires novel parallel computing methods and large-scale high- performance systems/fabrics. To help clients overcome these barriers and unleash AI/ML innovation, Intel provides a comprehensive ML solution stack with multiple technology options. Intel’s pioneering research in parallel ML algorithms and the Intel® Omni-Path Architecture (OPA) fabric minimize communications overhead and improve ML computational efficiency at scale. -
HP 250 Notebook PC
HP 250 Notebook PC Our value-priced notebook PC with powerful essentials ideal for everyday computing on the go. HP recommends Windows. Built for mobile use Designed for productivity For professionals on the move, the HP 250 features a Connect with colleagues online and email from the durable chassis that helps protect against the rigors of office or from your favorite hotspots with Wi-Fi the day. CERTIFIED™ WLAN.5 Carry the HP 250 from meeting to meeting. Enjoy great From trainings to sales presentations, view high-quality views on the 15.6-inch diagonal HD2 display, without multimedia and audio right from your notebook with sacrificing portability. preinstalled software and the built-in Altec Lansing speaker. Powered for business Tackle projects with the power of the Intel® third Make an impact with presentations when you connect 2 6 7 generation Core™ i3 or i5 dual-core processors.3 to larger HD displays through the HDMI port. Develop stunning visuals without slowing down your notebook, thanks to Intel’s integrated graphics. 4 HP, a world leader in PCs brings you Windows 8 Pro designed to fit the needs of business. HP 250 Notebook PC HP recommends Windows. SPECIFICATIONS Operating system Preinstalled: Windows 8 644 Windows 8 Pro 644 Ubuntu Linux FreeDOS Processor 3rd Generation Intel® Core™ i5 & i33; 2nd Generation Intel® Core™ i33; Intel® Pentium® 3; Intel® Celeron® 3 Chipset Mobile Intel® HM70 Express (Intel® Pentium® and Celeron® processors) Mobile Intel® HM75 Express (Intel® Core™ i3 and i5 processor) Memory DDR3 SDRAM (1600 MHz) -
Boosting Shared-Memory Supercomputing
casE STUDY Intel® Xeon® Processor 7500 Family Enterprise Server High-Performance Computing Performance for Data-Intensive Computing Boosting Shared-Memory Supercomputing NCSA doubles performance and nearly triples memory capacity with SGI Altix* UV system based on the Intel® Xeon® processor 7500 family As one of the premier high-performance computing (HPC) research institutions in the U.S., the National Center for Supercomputing Applications (NCSA) provides HPC resources for a wide range of scientific applications, including many whose performance needs require highly parallel shared-memory architectures. NCSA recently replaced its previous shared-memory system, an SGI Altix* supercomputer based on the Intel® Itanium® 2 processor, with an SGI Altix UV supercomputer powered by the Intel® Xeon® processor 7500 family. NCSA says the new system, which it calls Ember, consumes half the power while delivering double the performance and nearly triple the memory capacity. CHALLEngES • Rising demand, aging system. At nearly six years old, NCSA’s Intel Itanium 2 processor- based shared-memory supercomputer couldn’t keep up with rising demand. SOLUTIOns • Technologies to maximize data-intensive performance. NCSA chose an SGI Altix UV system with 256 six-core Intel Xeon processors 7500 family. The system has 8 TB of RAM and runs Red Hat Enterprise Linux*. IMPacT • More speed and capacity. The new supercomputer provides 16 teraflops (TF) of peak performance and 13.5 GB per second of I/O bandwidth, helping scientists accelerate progress on a variety of complex and important problems. • Cost and energy savings. The system consumes half as much power as the previous platform while delivering double the performance—the equivalent of four times more performance per watt. -
Intel® Arria® 10 Device Overview
Intel® Arria® 10 Device Overview Subscribe A10-OVERVIEW | 2020.10.20 Send Feedback Latest document on the web: PDF | HTML Contents Contents Intel® Arria® 10 Device Overview....................................................................................... 3 Key Advantages of Intel Arria 10 Devices........................................................................ 4 Summary of Intel Arria 10 Features................................................................................4 Intel Arria 10 Device Variants and Packages.....................................................................7 Intel Arria 10 GX.................................................................................................7 Intel Arria 10 GT............................................................................................... 11 Intel Arria 10 SX............................................................................................... 14 I/O Vertical Migration for Intel Arria 10 Devices.............................................................. 17 Adaptive Logic Module................................................................................................ 17 Variable-Precision DSP Block........................................................................................18 Embedded Memory Blocks........................................................................................... 20 Types of Embedded Memory............................................................................... 21 Embedded Memory Capacity in -
Product Change Notification 109134
Product Change Notification 109134 - 00 Information in this document is provided in connection with Intel products. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Intel’s Terms and Conditions of Sale for such products, Intel assumes no liability whatsoever, and Intel disclaims any express or implied warranty, relating to sale and/or use of Intel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right. Intel products are not intended for use in medical, life saving, or life sustaining applications. Intel may make changes to specifications and product descriptions at any time, without notice. Should you have any issues with the timeline or content of this change, please contact the Intel Representative(s) for your geographic location listed below. No response from customers will be deemed as acceptance of the change and the change will be implemented pursuant to the key milestones set forth in this attached PCN. Americas Contact: [email protected] Asia Pacific Contact: [email protected] Europe Email: [email protected] Japan Email: [email protected] Copyright © Intel Corporation 2009. Other names and brands may be claimed as the property of others. Celeron, Centrino, Intel, the Intel logo, Intel Core, Intel NetBurst, Intel NetMerge, Intel NetStructure, Intel SingleDriver, Intel SpeedStep, Intel StrataFlash, Intel Viiv, Intel XScale, Itanium, MMX, Paragon, PDCharm, Pentium, and Xeon are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries.