DOCSLIB.ORG

Intel® Xeon® Processor D-1500 Product Family

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Intel® Xeon® Processor D-1500 Product Family PRODUCT BRIEF Intel® Xeon® Processor D-1500 Product Family (Intel® Xeon® Processors D-1527/D-1529/D-1539/D-1548/D-1559/D-1567/D-1577 and Intel® Pentium® Processors D1508/D1509/D1519) Support dense, ruggedized Internet of Things solutions with the advanced intelligence, high performance, low power, long-life reliability, and robust thermals of the Intel® Xeon® processor D-1500 family. Internet of Things Product Overview Enhanced Performance per Watt As the Internet of Things (IoT) The Intel Xeon processor D-1500 expands and technology solutions product family delivers exceptional are expected to use less power and value and unmatched performance space while offering more reliability density per watt with an Intel Xeon and performance, Intel is proud to processor in an SoC package. Its TDP introduce the Intel® Xeon® processor of ~19 W to 65 W, industry-leading D-1500 product family. It is Intel’s 14 nm process technology, and a 3rd-generation 64-bit system-on- compute-only design make it ideal a-chip (SoC) and the first Intel Xeon for meeting the diverse needs of SoC based on Intel 14nm silicon customers seeking midrange low- technology. power, high-density solutions—like This lineup offers hardware and those found in programmable logic software scalability from two up to controllers (PLCs), motion control eight cores, making it the perfect devices, and avionics controllers. choice for a broad range of high- The Intel Xeon processor D-1500 performing, low-power solutions that product family represents up to 2.3x will bring intelligence and Intel® Xeon® greater performance per watt1 and a processor reliability, availability, and scalable product lineup spanning two serviceability (RAS) to the edge. For to eight cores, support for up to applications where space is a premium, 128 GB of high-speed DDR4 memory, an integrated Platform Controller Hub up to 12 MB of last-level cache, and two (PCH) technology and Intel® Ethernet integrated ports of 10 Gb Intel Ethernet in a ball grid array (BGA) package offer for ultra-fast connectivity. an inspiring level of design simplicity. Enjoy high system reliability and The Intel Xeon processor D-1500 data integrity with support for error product family is offered with a seven- correction code (ECC) memory, year extended supply life and 10-year single device data correction (SDDC), reliability for IoT designs. memory demand, patrol scrubbing, and much more with Intel Xeon processor-class RAS. Product Brief Intel® Xeon® Processor D-1500 Product Family 2 The Intel Xeon processor D-1500 processes as Intel® Core™, Intel® Atom™, Integrated SoC Solution product family also drives enhanced and other Intel Xeon processors, the Save on engineering time and cost performance on floating point- Intel Xeon processor D-1500 product thanks to the efficiency of a one-chip intensive applications with 256-bit family delivers broad application solution offered by the Intel Xeon integer package processing from the compatibility and software consistency processor D-1500 product family. It newly integrated Intel® Advanced from the data center to the edge. The brings the performance and advanced Vector Extensions 2 (Intel® AVX2) and reliable Intel x86 64-bit software intelligence of Intel Xeon processors fast, low-overhead encryption with support helps save time, cost, and into a dense, lower-power system- Intel® Advanced Encryption Standard validation. on-a-chip. It removes board design New Instructions (Intel® AES-NI). It’s an ideal platform for supporting complexity by integrating Platform a complete product line that meets a Controller Hub technology and Expanded Hardware and range of IoT requirements, including Intel Ethernet, and by utilizing and Software Scalability Intel Platform Storage Extensions, an integrated heat spreader and a The Intel Xeon processor D-1500 which allow smarter and more cost- BGA package to meet TDP targets. product family boasts hardware and effective storage solutions through For applications where space is at a software scalability from two to eight integrated technologies that accelerate premium, like ruggedized IoT designs, cores in a TDP of ~19 W to 65 W. data movement, protect data, and valuable board space will be conserved Utilizing similar development tools and simplify data management. for other components. Enabling More IoT Use Cases The Intel Xeon processor D-1500 THE INTEL® XEON® PROCESSOR D-1500 PRODUCT FAMILY product family drives a host of new PLAtfORM OVERVIEW IoT opportunities for a wide range of environments, while addressing real-time optimization, and workload Intel® Xeon® Processor D-1500 consolidation. Its temperature Product Family rating spans from -40 °C to 85 °C operating ambient conditions, which Intel® establishes new possibilities for Intel® X8 PCIE2 Communications architecture in markets that require Chipset 89xx Series robust products, like aerospace and Intel® X24 PCIE3 microarchitecture industrial. New solutions are enabled (Codename Broadwell) for AdvancedMC*, CompactPCI*, Cores X6 SATA 3 COM Express*, and many embedded applications in IoT. IOs X4 USB3 The design of the Intel Xeon processor Advanced Advanced D-1500 product family reduces X4 USB2 FW, BIOS, engineering and development costs Drivers as well as total cost of ownership, by Server Uncore Legacy IOs BIOS allowing several applications to run in an end design on one consolidated ED K2 system with built-in Intel® Virtualization SPS Firmware Technology. Performance is further DDR 4/3 L x2 10GbE enhanced in virtualized and cloud 128 GB Intel® CS Drivers Max Ethernet environments by taking advantage of LAN Drivers Intel® Cache Monitoring Technology ECC OS/VMM (Intel® CMT), Intel® Cache Allocation UDIMM, Intel Enabling/Testing SODIMM, Switches Technology (Intel® CAT) and Intel® RDIMM Memory Bandwidth Monitoring Technology (Intel® MBM) for near-native compute and I/O performance that Intel HW Intel SW 3rd-Party HW leads to improvements in service level and infrastructure management. Product Brief Intel® Xeon® Processor D-1500 Product Family 3 KEY FEATURES ENHANCED PERFORMANCE PER WATT Industrial Sector Memory: Up to 12 MB of last-level cache, support for 128 GB DDR4. Powerful performance that Increasing automation enables intensive activities like large image processing. in the industrial sector is driving Intel® Advanced Vector Extensions 2 (Intel® AVX2): Drive enhanced performance on floating demand for technology solutions point-intensive applications with 256-bit integer package processing. that are designed for IoT from the ground up. The Intel® Xeon® processor D-1500 product family offers distinct EXPANDED HARDWARE/SOFTWARE SCALABILITY advantages both in capability and 2–16 cores: Choose from a wide selection of processors to find a perfect fit for your technology cost-effectiveness for IoT applications. solution. The integrated SoC design opens more programmable logic controller Intel platform storage extensions: Support smarter and more cost-effective storage solutions through integrated technologies that accelerate data movement, protect data, and simplify (PLC) opportunities and midrange data management. robotics applications, while reducing equipment footprint and engineering x86 64-bit software support: Use similar development tools and processes as many different and development costs. Intel® processors to save time, cost, and validation. Thermal design power (TDP) of ~19 W to 65 W: A wide TDP range enables designs that are truly scalable, creating opportunities for many different usage scenarios. Military/Aerospace/ Government (MAG) INTEGRATED SoC SOLUTION Demanding, rugged environmental Platform Controller Hub technology: Address more programmable logic controller (PLC) factors, as well as reliability and opportunities, midrange robotics applications, and data access points that are compute-centric. security concerns, ask a great deal of processors in the MAG sector, such Intel® Ethernet: Two integrated ports of 10 Gb Ethernet. Save space and design time with an as those found in synthetic aperture integrated design that speeds the communication of components. radar/lidar and multispectral sensor Ruggedized BGA with Integrated Heat Spreader: Simplifies the design of systems where space is integration, to image/signal processing, at a premium and reduces the total cost of ownership. and electronics warfare. The Intel Xeon processor D-1500 product ENABLING MORE IoT SOLUTIONS family opens up new opportunities for innovation by meeting or exceeding Extended temperature rating of -40 °C to 85 °C: The first Intel® Xeon® processor to operate at a those requirements with a highly temperature span this wide. scalable, secure, and generationally- Intel® Xeon® processor-class RAS: High system reliability and data integrity with Intel Xeon stable Intel® architecture. It also processor-class reliability, availability, and serviceability (RAS) for added coverage for mission- lowers costs and development cycles critical applications. by allowing you to adopt commercial off-the-shelf (COTS) processors and Intel® Cache Monitoring Technology (Intel® CMT), Intel® Cache Allocation Technology (Intel® discontinuing reliance on ASIC- or CAT) and Intel® Memory Bandwidth Monitoring Technology (Intel® MBM): Achieve near-native compute and I/O performance and better service level and infrastructure management. FPGA-based solutions. Intel® Virtualization Technology (Intel® VT): Run several devices in an end design on one consolidated system reducing engineering and development costs as well as total cost
Load more

Recommended publications
  • How to Hack a Turned-Off Computer Or Running Unsigned
    HOW TO HACK A TURNED-OFF COMPUTER, OR RUNNING UNSIGNED CODE IN INTEL ME Contents Contents ................................................................................................................................ 2 1. Introduction ...................................................................................................................... 3 1.1. Intel Management Engine 11 overview ............................................................................. 4 1.2. Published vulnerabilities in Intel ME .................................................................................. 5 1.2.1. Ring-3 rootkits.......................................................................................................... 5 1.2.2. Zero-Touch Provisioning ........................................................................................... 5 1.2.3. Silent Bob is Silent .................................................................................................... 5 2. Potential attack vectors ...................................................................................................... 6 2.1. HECI ............................................................................................................................... 6 2.2. Network (vPro only)......................................................................................................... 6 2.3. Hardware attack on SPI interface ..................................................................................... 6 2.4. Internal file system .........................................................................................................
    [Show full text]
  • Developing Solutions for the Internet of Things
    Cloud Data Gateways Analytics Things WHITE PAPER Internet of Things Developing Solutions for the Internet of Things Intel® products, solutions, and services are enabling secure and seamless solutions for the Internet of Things (IoT). Introduction The world is undergoing a dramatic transformation, rapidly transitioning from isolated systems to ubiquitous Internet-enabled ‘things’ capable of generating data that can be analyzed to extract valuable information. Commonly referred to as the Internet of Things (IoT), this new reality will enrich everyday life, increase business productivity, improve government efficiency, and the list goes on. Intel is working with a large community of solution providers to develop IoT solutions for a wide range of organizations and businesses, including industrial, retail, automotive, energy, and healthcare industries. The solutions generate actionable information by running analytic Powering software and services on data that moves between devices and the cloud in a manner that is Business always secure, manageable, and user-friendly. Transformation Whether connecting a consumer wearable device, vehicle, or factory controller to the Internet, everyone wants it to be quick and seamless. This paper describes how Intel® products and technologies are helping make this a reality by providing fundamental building blocks for a robust ecosystem that is developing end-to-end IoT solutions. Building Blocks for Thing to Cloud Innovation The IoT vision is to create opportunities to transform businesses, people’s lives, and the world in countless ways by enabling billions of systems across the globe to share and analyze data over the cloud. With these capabilities, IoT solutions can improve medical outcomes, create better products faster, lower development cost, make shopping more enjoyable, or optimize energy generation and consumption.
    [Show full text]
  • BRKINI-2390.Pdf
    BRKINI-2390 Data Center security within modern compute and attached fabrics - servers, IO, management Dan Hanson Director UCS Architectures and Technical Marketing Cisco Spark Questions? Use Cisco Spark to communicate with the speaker after the session How 1. Find this session in the Cisco Live Mobile App 2. Click “Join the Discussion” 3. Install Spark or go directly to the space 4. Enter messages/questions in the space cs.co/ciscolivebot#BRKINI-2390 © 2018 Cisco and/or its affiliates. All rights reserved. Cisco Public Recent Press Items © 2018 Cisco and/or its affiliates. All rights reserved. Cisco Public Agenda • x86 Architecture Review • BIOS and Kernel Manipulation • Device Firmware Manipulation • On Server Data Storage Manipulation • Segmentation and Device access • Root of Trust Flow • Policy Control vs. Component Configuration (Cisco UCS and ACI) • Example of Security Offloading: Skyport Systems • Conclusion x86 Architecture Review Many Points of possible attack X86 Reference Legacy Elements • You may see many terms in various articles shown here • Over time, items moving on the CPU itself • Memory • PCIe • Processors/Servers differentiation in some areas • Front Side Bus speeds • Direct Media Interface • Southbridge Configurations BRKINI-2390 © 2018 Cisco and/or its affiliates. All rights reserved. Cisco Public 7 X86 Reference Fundamental Architecture • Not shown: Quick Path Interconnect/UltraPath Interconnect for CPU to CPU communications • Varied counts and speeds for multi-socket systems • Current Designs have On-Die PCIe and Memory controllers • Varied numbers and DIMMs in memory channels by CPU • Platform Controller Hub varies and can even offer server acceleration and security functions BRKINI-2390 © 2018 Cisco and/or its affiliates.
    [Show full text]
  • Dell EMC Poweredge C4140 Technical Guide
    Dell EMC PowerEdge C4140 Technical Guide Regulatory Model: E53S Series Regulatory Type: E53S001 Notes, cautions, and warnings NOTE: A NOTE indicates important information that helps you make better use of your product. CAUTION: A CAUTION indicates either potential damage to hardware or loss of data and tells you how to avoid the problem. WARNING: A WARNING indicates a potential for property damage, personal injury, or death. © 2017 - 2019 Dell Inc. or its subsidiaries. All rights reserved. Dell, EMC, and other trademarks are trademarks of Dell Inc. or its subsidiaries. Other trademarks may be trademarks of their respective owners. 2019 - 09 Rev. A00 Contents 1 System overview ......................................................................................................................... 5 Introduction............................................................................................................................................................................ 5 New technologies.................................................................................................................................................................. 5 2 System features...........................................................................................................................7 Specifications......................................................................................................................................................................... 7 Product comparison.............................................................................................................................................................
    [Show full text]
  • C610 Series Chipset and Intel® X99 Chipset Platform Controller Hub (PCH) External Design Specification (EDS) Specification Update
    Intel® C610 Series Chipset and Intel® X99 Chipset Platform Controller Hub (PCH) External Design Specification (EDS) Specification Update June 2016 Reference Number: 330789-004 Intel technologies’ features and benefits depend on system configuration and may require enabled hardware, software or service activation. Learn more at Intel.com, or from the OEM or retailer. No computer system can be absolutely secure. Intel does not assume any liability for lost or stolen data or systems or any damages resulting from such losses. You may not use or facilitate the use of this document in connection with any infringement or other legal analysis concerning Intel products described herein. You agree to grant Intel a non-exclusive, royalty-free license to any patent claim thereafter drafted which includes subject matter disclosed herein. No license (express or implied, by estoppel or otherwise) to any intellectual property rights is granted by this document. The products described may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized errata are available on request. Intel disclaims all express and implied warranties, including without limitation, the implied warranties of merchantability, fitness for a particular purpose, and non-infringement, as well as any warranty arising from course of performance, course of dealing, or usage in trade. I2C is a two-wire communications bus/protocol developed by Philips. SMBus is a subset of the I2C bus/protocol and was developed by Intel. Implementations of the I2C bus/protocol may require licenses from various entities, including Philips Electronics N.V. and North American Philips Corporation.
    [Show full text]
  • (PCH) Thermal Mechanical Specifications and Design Guid
    Intel® 6 Series Chipset and Intel® C200 Series Chipset Thermal Mechanical Specifications and Design Guidelines (TMSDG) May 2011 324647-004 INFORMATIONLegal Lines and Disclaimers 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. UNLESS OTHERWISE AGREED IN WRITING BY INTEL, THE INTEL PRODUCTS ARE NOT DESIGNED NOR INTENDED FOR ANY APPLICATION IN WHICH THE FAILURE OF THE INTEL PRODUCT COULD CREATE A SITUATION WHERE PERSONAL INJURY OR DEATH MAY OCCUR. Intel may make changes to specifications and product descriptions at any time, without notice. Designers must not rely on the absence or characteristics of any features or instructions marked "reserved" or "undefined." Intel reserves these for future definition and shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them. The information here is subject to change without notice. Do not finalize a design with this information. The products described in this document may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized errata are available on request. Contact your local Intel sales office or your distributor to obtain the latest specifications and before placing your product order.
    [Show full text]
  • Creating a Pci Express Interconnect in the Gem5 Simulator
    CREATING A PCI EXPRESS INTERCONNECT IN THE GEM5 SIMULATOR BY KRISHNA PARASURAM SRINIVASAN THESIS Submitted in partial fulfillment of the requirements for the degree of Master of Science in Electrical and Computer Engineering in the Graduate College of the University of Illinois at Urbana-Champaign, 2018 Urbana, Illinois Adviser: Associate Professor Nam Sung Kim ABSTRACT In this thesis, the objective was to implement a PCI (Peripheral Component Interconnect) Express interconnect in the gem5 architecture simulator. The interconnect was designed with the goal of aiding accurate modeling of PCI Express-based devices in gem5 in the future. The PCI Express interconnect that was created consisted of a root complex, PCI Express switch, as well as individual PCI Express links. Each of these created components can work independently, and can be easily integrated into the existing gem5 platforms for the ARM Instruction Set Architecture. The created PCI Express interconnect was evaluated against a real PCI Express interconnect present on an Intel Xeon server platform. The bandwidth offered by both interconnects was compared by reading data from storage devices using the Linux utility “dd”. The results indicate that the gem5 PCI Express interconnect can provide between 81% - 91.6% of the bandwidth of the real PCI Express interconnect. However, architectural differences between the gem5 and Intel Xeon platforms used, as well as unimplemented features of the PCI Express protocol in the gem5 PCI Express interconnect, necessitate more strenuous validation
    [Show full text]
  • United States Securities and Exchange Commission Form
    UNITED STATES SECURITIES AND EXCHANGE COMMISSION Washington, D.C. 20549 FORM 8-K CURRENT REPORT Pursuant to Section 13 OR 15(d) of The Securities Exchange Act of 1934 Date of Report: November 20, 2014 (Date of earliest event reported) INTEL CORPORATION (Exact name of registrant as specified in its charter) Delaware 000-06217 94-1672743 (State or other jurisdiction (Commission (IRS Employer of incorporation) File Number) Identification No.) 2200 Mission College Blvd., Santa Clara, California 95054-1549 (Address of principal executive offices) (Zip Code) (408) 765-8080 (Registrant's telephone number, including area code) (Former name or former address, if changed since last report) Check the appropriate box below if the Form 8-K filing is intended to simultaneously satisfy the filing obligation of the registrant under any of the following provisions (see General Instruction A.2. below): [ ] Written communications pursuant to Rule 425 under the Securities Act (17 CFR 230.425) [ ] Soliciting material pursuant to Rule 14a-12 under the Exchange Act (17 CFR 240.14a-12) [ ] Pre-commencement communications pursuant to Rule 14d-2(b) under the Exchange Act (17 CFR 240.14d-2(b)) [ ] Pre-commencement communications pursuant to Rule 13e-4(c) under the Exchange Act (17 CFR 240.13e-4c)) Item 7.01 Regulation FD Disclosure The information in this report shall not be treated as filed for purposes of the Securities Exchange Act of 1934, as amended. On November 20, 2014, Intel Corporation presented business and financial information to institutional investors, analysts, members of the press and the general public at a publicly available webcast meeting (the "Investor Meeting").
    [Show full text]
  • HPC Software Cluster Solution
    Architetture innovative per il calcolo e l'analisi dati Marco Briscolini Workshop di CCR La Biodola, Maggio 16-20. 2016 2015 Lenovo All rights reserved. Agenda . Cooling the infrastructure . Managing the infrastructure . Software stack 2015 Lenovo 2 Target Segments - Key Requirements Data Center Cloud Computing Infrastructure Key Requirements: Key Requirements: • Low-bin processors (low • Mid-high bin EP cost) processors High Performance • Smaller memory (low • Lots of memory cost) Computing (>256GB/node) for • 1Gb Ethernet virtualization Key Requirements: • 2 Hot Swap • 1Gb / 10Gb Ethernet drives(reliability) • 1-2 SS drives for boot • High bin EP processors for maximum performance Virtual Data • High performing memory Desktop Analytics • Infiniband Key Requirements: • 4 HDD capacity Key Requirements: • Mid-high bin EP processors • GPU support • Lots of memory (> • Lots of memory (>256GB per 256GB per node) for node) virtualization • 1Gb / 10Gb Ethernet • GPU support • 1-2 SS drives for boot 3 A LOOK AT THE X86 MARKET BY USE . HPC is ~6.6 B$ growing 8% annually thru 2017 4 Some recent “HPC” EMEA Lenovo 2015 Client wins 5 This year wins and installations in Europe 1152 nx360M5 DWC 1512 nx360M5 BRW EDR 3600 Xeon KNL 252 nx360M5 nodes 392 nx360M5 nodes GPFS, GSS 10 PB IB FDR14, Fat Tree IB FDR14 3D Torus OPA GPFS, 150 TB, 3 GB/s GPFS 36 nx360M5 nodes 312 nx360M5 DWC 6 nx360M5 with GPU 1 x 3850X6 GPFS, IB FDR14, 2 IB FDR, GPFS GSS24 6 2 X 3 PFlops SuperMUC systems at LRZ Phase 1 and Phase 2 Phase 1 Ranked 20 and 21 in Top500 June 2015 • Fastest Computer in Europe on Top 500, June 2012 – 9324 Nodes with 2 Intel Sandy Bridge EP CPUs – HPL = 2.9 PetaFLOP/s – Infiniband FDR10 Interconnect – Large File Space for multiple purpose • 10 PetaByte File Space based on IBM GPFS with 200GigaByte/s I/O bw Phase 2 • Innovative Technology for Energy Effective .
    [Show full text]
  • Intel Xeon E5-2600 V3 Codename Haswell-EP Launch
    Intel Xeon E5-2600 v3 Codename Haswell-EP Launch 1 Introduction It’s that time of year again when Intel finally release their latest enterprise processor for the dual processor segment to the eagerly awaiting professional market. Following on in the traditional early September launch time frame, the Xeon E5-2600 v3 processor series, codename Haswell-EP has been officially launched, finally allowing us at Bostonlabs to go through all the exciting details of the processors which we’ve been testing secretly in our labs for some time. A Xeon E5-2600 v2 (left) pictured with the new Xeon E5-2600 v3 Series (right) As a “Tock” in the Intel ”Tick/Tock” release cycle, Haswell is an all new core microarchitecture, meaning that the core has been vastly redesigned and introduces many new features, yet stays on the same 22nm lithography as its predecessor – Ivy Bridge. 2 Intel®’s Tick / Tock roadmap to date from Nehalem to present The Haswell microarchitecture itself, has actually been around for more than 12 months in the guise of the lower end Xeon E3-1200 v3 series processor, so the processor feature and instruction set is somewhat familiar, however Haswell-EP takes the changes that its entry level sibling delivered and expands on them significantly. A new platform generation codename “Grantley” was also launched to compliment Haswell –EP, replacing “Romley”. This brings in a new processor socket “Socket R3” which is similar to the outgoing “Socket R” and uses the same 2011 LGA pins, but these are laid out in a slightly different configuration to avoid confusion and accidental insertion of the older model.
    [Show full text]
  • User's Guide for Conga-JC370
    conga-JC370 Juke SBC 8th Generation Intel Core i7, i5, i3 and Celeron Single Chip Ultra Low TDP U-Series SoC User's Guide Revision 1.3 Revision History Revision Date (yyyy-mm-dd) Author Changes 0.1 2019-11-19 AEM • Preliminary release 1.0 2020-02-06 AEM • Updated the ethernet description and Intel AMT version in section 2.1 “Feature List” • Added note about TSN support to section 5.6 “Ethernet” • Corrected the signal name of pins 69 and 71 in section 5.2.4 “M.2 Key M Socket” • Updated table 8 “Power Consumption Values” • Added BIOS MLF information to 7 “BIOS Setup Description” • Deleted section 8 “Industry Specifications” • Official release 1.1 2021-01-25 AEM • Deleted table 5 “Power Supply” • Added section 7 “Mechanical Drawing” 1.2 2021-03-30 AEM • Updated section 3 “Block Diagram” • Deleted adapter with part number 052232 from table 4 “Adapters • Corrected Ethernet description in table 5 “Feature Summary” • Updated section 5.6 “Ethernet” 1.3 2021-07-31 AEM • Added Software License Information • Changed congatec AG to congatec GmbH • Removed the optional CAN header from table 5 “Feature Summary” and section 3 “Block diagram” • Corrected the sleep state typographical error in table 33 “X4 Pinout Description” • Updated section 6.6 “congatec Battery Management Interface” Copyright © 2019 congatec GmbH JCWLm13 2/57 Preface This user's guide provides information about the components, features and connectors available on the conga-JC370 Juke single board computer. Software Licenses Notice Regarding Open Source Software The congatec products contain Open Source software that has been released by programmers under specific licensing requirements such as the “General Public License“ (GPL) Version 2 or 3, the “Lesser General Public License“ (LGPL), the “ApacheLicense“ or similar licenses.
    [Show full text]
  • Intel's Core 2 Family
    Intel’s Core 2 family - TOCK lines References Dezső Sima Vers. 1.0 Januar 2019 Contents (1) • 1. Introduction • 2. The Core 2 line • 3. The Nehalem line • 4. The Sandy Bridge line • 5. The Haswell line • 6. The Skylake line • 7. The Kaby Lake line • 8. The Kaby Lake Refresh line • 9. The Coffee Lake line • 10. The Coffee Lake line Refresh Contents (2) • 11. The Cannon Lake line (outlook) • 12. Sunny Cove • 13. References 13. References 12. References (1) [1]: Singhal R., “Next Generation Intel Microarchitecture (Nehalem) Family: Architecture Insight and Power Management, IDF Taipeh, Oct. 2008, http://intel.wingateweb.com/taiwan08/ published/sessions/TPTS001/FA08%20IDFTaipei_TPTS001_100.pdf [2]: Bryant D., “Intel Hitting on All Cylinders,” UBS Conf., Nov. 2007, http://files.shareholder.com/downloads/INTC/0x0x191011/e2b3bcc5-0a37-4d06- aa5a-0c46e8a1a76d/UBSConfNov2007Bryant.pdf [3]: Fisher S., “Technical Overview of the 45 nm Next Generation Intel Core Microarchitecture (Penryn),” IDF 2007, ITPS001, http://isdlibrary.intel-dispatch.com/isd/89/45nm.pdf [4]:Pabst T., The New Athlon Processor: AMD Is Finally Overtaking Intel, Tom's Hardware, August 9, 1999, http://www.tomshardware.com/reviews/athlon-processor,121-2.html [5]: Carmean D., “Inside the Pentium 4 Processor Micro-architecture,” Aug. 2000, http://people.virginia.edu/~zl4j/CS854/pda_s01_cd.pdf [6]: Shimpi A. L. & Clark J., “AMD Opteron 248 vs. Intel Xeon 2.8: 2-way Web Servers go Head to Head,” AnandTech, Dec. 17 2003, http://www.anandtech.com/showdoc.aspx?i=1935&p=1 [7]: Völkel F., “Duel of the Titans: Opteron vs. Xeon : Hammer Time: AMD On The Attack,” Tom’s Hardware, Apr.
    [Show full text]