This document discusses strategies for developing low power mobile platforms. It summarizes four strategies: 1) Take full advantage of Intel's mobile processors and chipsets through power optimization. 2) Enhance third party devices to support ACPI-based power management. 3) Optimize platform power delivery through techniques like HDD power reduction and single stage LCD power conversion. 4) Utilize display low power management architectures and technologies. The document provides details on implementing each strategy to reduce power consumption and improve battery life in mobile platforms.
The IBM zEnterprise System, introduced last July is arguably the most significant new systems architecture in 20 years and took smarter computing and optimized systems to a whole new level.
This revolutionary system introduced a new hybrid computing model capable of integrating and managing multiple (or today’s most prevalent) architectures in a single integrated system making it possible to begin collapsing individual islands of computing to reduce complexity, improve security, and bring business applications and workloads closer to the data they need. This hybrid environment allows clients to optimize workloads, deploy enterprise clouds, and take action based on real-time analytics and big data.
This document provides roadmaps for Intel's public desktop, mobile, server, and workstation platforms for the second half of 2009. On the desktop side, it outlines the planned releases of new Intel Core i7, Core 2 Quad, Core 2 Duo, and Pentium processors paired with new chipsets. For mobile platforms, it shares roadmaps for new Intel Centrino 2 processors and supporting chipsets. The server section outlines roadmaps for Intel's Mission Critical, Expandable, and Efficient Performance platforms. Finally, it provides a workstation platform roadmap.
The document provides roadmaps for Intel's desktop, mobile, and data center platforms for 1H 2012. It outlines the processor, chipset, and feature options for various product segments including consumer, enterprise, and small business. The roadmaps show planned introductions of 2nd and 3rd generation Intel Core processor families with integrated graphics and vPro technology options. They are subject to change without notice.
This document provides a roadmap for Intel's desktop, mobile, and datacenter products from the second half of 2013 through the first quarter of 2014. It outlines planned processor and chipset releases, including Ivy Bridge, Haswell, and Bay Trail architectures. The document also contains legal disclaimers regarding the provision of information, product warranties, mission critical applications, product specifications, and characterization of engineering samples.
This document provides information about Intel's 5th generation Core processors, including:
- Performance improvements over previous generations including faster graphics, longer battery life, and higher efficiency.
- Details on the new Core M processors designed for 2-in-1 devices and ultrabooks with higher performance but lower power draw compared to 4th generation chips.
- Specifications for the new 5th generation Core i7, i5, i3, Pentium, and Celeron U-series low power processors including clock speeds, graphics capabilities, and other technical details.
Slideshare ctl intel core i webinar 4.2010Mike Mahanay
The document summarizes Intel's new 2010 Core processor lineup, including i3 and i5 processors. It provides details on the different processor models and their performance levels. It also discusses the integrated graphics capabilities and energy efficiency of the new Intel Core processors.
The document is a presentation about the NVIDIA Tegra K1 microprocessor. It begins with an outline that will discuss the Tegra K1, its specifications, chip version, architecture, and features. It provides background on NVIDIA as a company and introduces the Tegra line of system on a chip units. It describes the Kepler GPU microarchitecture that powers the Tegra K1. The presentation notes that the Tegra K1 is built on NVIDIA's Kepler architecture and can provide powerful, immersive mobile experiences for gaming, augmented reality, and automotive applications.
The Dell OptiPlex 3010 is an affordable business desktop that delivers the latest Intel processors and graphics for office productivity. It comes in mini-tower, desktop, and small form factor chassis to maximize desk space. The durable metal chassis underwent testing for reliability. It can be managed easily with standard solutions and has features for connectivity, security, and productivity.
The IBM zEnterprise System, introduced last July is arguably the most significant new systems architecture in 20 years and took smarter computing and optimized systems to a whole new level.
This revolutionary system introduced a new hybrid computing model capable of integrating and managing multiple (or today’s most prevalent) architectures in a single integrated system making it possible to begin collapsing individual islands of computing to reduce complexity, improve security, and bring business applications and workloads closer to the data they need. This hybrid environment allows clients to optimize workloads, deploy enterprise clouds, and take action based on real-time analytics and big data.
This document provides roadmaps for Intel's public desktop, mobile, server, and workstation platforms for the second half of 2009. On the desktop side, it outlines the planned releases of new Intel Core i7, Core 2 Quad, Core 2 Duo, and Pentium processors paired with new chipsets. For mobile platforms, it shares roadmaps for new Intel Centrino 2 processors and supporting chipsets. The server section outlines roadmaps for Intel's Mission Critical, Expandable, and Efficient Performance platforms. Finally, it provides a workstation platform roadmap.
The document provides roadmaps for Intel's desktop, mobile, and data center platforms for 1H 2012. It outlines the processor, chipset, and feature options for various product segments including consumer, enterprise, and small business. The roadmaps show planned introductions of 2nd and 3rd generation Intel Core processor families with integrated graphics and vPro technology options. They are subject to change without notice.
This document provides a roadmap for Intel's desktop, mobile, and datacenter products from the second half of 2013 through the first quarter of 2014. It outlines planned processor and chipset releases, including Ivy Bridge, Haswell, and Bay Trail architectures. The document also contains legal disclaimers regarding the provision of information, product warranties, mission critical applications, product specifications, and characterization of engineering samples.
This document provides information about Intel's 5th generation Core processors, including:
- Performance improvements over previous generations including faster graphics, longer battery life, and higher efficiency.
- Details on the new Core M processors designed for 2-in-1 devices and ultrabooks with higher performance but lower power draw compared to 4th generation chips.
- Specifications for the new 5th generation Core i7, i5, i3, Pentium, and Celeron U-series low power processors including clock speeds, graphics capabilities, and other technical details.
Slideshare ctl intel core i webinar 4.2010Mike Mahanay
The document summarizes Intel's new 2010 Core processor lineup, including i3 and i5 processors. It provides details on the different processor models and their performance levels. It also discusses the integrated graphics capabilities and energy efficiency of the new Intel Core processors.
The document is a presentation about the NVIDIA Tegra K1 microprocessor. It begins with an outline that will discuss the Tegra K1, its specifications, chip version, architecture, and features. It provides background on NVIDIA as a company and introduces the Tegra line of system on a chip units. It describes the Kepler GPU microarchitecture that powers the Tegra K1. The presentation notes that the Tegra K1 is built on NVIDIA's Kepler architecture and can provide powerful, immersive mobile experiences for gaming, augmented reality, and automotive applications.
The Dell OptiPlex 3010 is an affordable business desktop that delivers the latest Intel processors and graphics for office productivity. It comes in mini-tower, desktop, and small form factor chassis to maximize desk space. The durable metal chassis underwent testing for reliability. It can be managed easily with standard solutions and has features for connectivity, security, and productivity.
Intel 4th Gen Core Refresh for EnthusiastMayura Garg
New unlocked 4th generation Intel Core processors deliver uncompromised 4-core, 4GHz performance for enthusiasts. They feature robust overclocking capabilities through independent base clock tuning. Built for enthusiasts, they provide multi-tasking compute performance with 4 cores and up to 8 threads to handle intensive gaming and multimedia creation.
JT1_Universal_Flight_Control_Station 2 (2)Matt Thomas
The JT1 Universal Flight Control Station is a fully customizable command and control system for unmanned aerial vehicles (UAVs) and other aircraft. It uses modular components from top manufacturers to provide high-quality video, comfortable ergonomic seating, and flexible hardware and software interfaces. The system is designed to meet military standards for reliability, durability, and compatibility across missions and platforms.
This document provides historical information on the evolution of computer motherboards from the 1980s to the late 1990s. It lists specifications for motherboards used with early Intel processors like the 8086, 80286, 80386, 486, and Pentium processors. The motherboards span various manufacturers including IBM, Compaq, Dell, and others. Key details provided for each motherboard include the processor, chipset, memory capacity, BIOS, dimensions, and jumper/switch settings for configuration.
The document discusses Intel's upcoming 4th generation Core processor family to be announced on June 4, 2013. It will include mobile, desktop, and low power processors with improved graphics capabilities branded as Intel Iris and Iris Pro. New processors are aimed at driving innovation in thin, flexible, and touch-enabled devices with significant increases in battery life and graphics performance over previous generations.
Power Optimization Through Manycore Multiprocessingchiportal
The document discusses power optimization techniques for mobile devices. It describes how many-core multiprocessing using smaller, more efficient processor cores can improve performance and scalability while reducing power compared to single large cores. Specifically, ARM's big.LITTLE processing combines high-performance Cortex-A15 cores for intensive tasks with power-efficient Cortex-A7 cores for less demanding tasks, allowing dynamic task migration between core types to optimize for both performance and power efficiency. Software changes are needed to decompose tasks and take advantage of the multiple core types.
Технологии Intel для виртуализации сетей операторов связиCisco Russia
This document discusses Intel technologies for network operator virtualization. It summarizes Intel's positioning of products like Xeon processors, Ethernet controllers, and SSDs to help transform telecom networks through network functions virtualization (NFV). NFV aims to reduce costs and speed service deployment by consolidating network infrastructure on standard high-volume servers, switches and storage.
Mitsubishi cnc cv nc e70 series-dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
This document provides release notes for version P17-0076 of the Standard BIOS for Intel OPSD motherboards. The release includes fixes and enhancements such as updated AMI BIOS code, improved ACPI and power management support, updated SMBIOS information, IDE and SATA fixes, and security features. It addresses issues with Windows compatibility, language support, and boot options.
Power Management from Linux Kernel to
Android
For normal desktop computer, power management (PM) is used to reduce power
consumption and reduce cooling requirements. Lower power consumption means
lower heat dissipation, which increases system stability, and less energy use, which
saves money and reduces the impact on the environment. For mobile device and
embedded system device, it’s much more important because the battery power is very
limited. Nowadays, android phone and iPhone are more and more pervasive. There
are more and more sensors and I/O in mobile device that can be used to improve the
effectiveness of PM. The PM needs to be tuned for new mobile device’s need. In this
survey, we want to not only know the power management system used before, but
also want to compare them with the design of Android PM.
This document discusses the history and evolution of mobile phones and personal digital assistants (PDAs) from 1992 to 1996. It notes several important early devices including the Motorola International 3200 phone in 1992, the Nokia 1011 which was the first mass-produced GSM phone, and the IBM Simon personal communicator in 1992, which was the first device to combine PDA and phone functionality. It also mentions the Motorola StarTAC phone in 1996 as the first clamshell cellular phone design.
1) Intel's innovations are inspired by customer demand for increased performance, density, and efficiency in technical computing.
2) The new generation of Intel Xeon 5500 processors provide up to 3x greater performance over previous generations through intelligent performance features like Intel Turbo Boost Technology and increased core counts, while also improving power efficiency.
3) The Intel Xeon 5500 platform is optimized for diverse workloads in fields like weather prediction, computational fluid dynamics, and genomics research to help users scale their performance forward.
The new Z97 overclocking motherboards come with an awesome “M“ and “X” signature on the heatsinks and have a black finish completed with yellow highlights.
This document provides an introduction to system on chip (SoC) based smartphone processors, their working, and architecture. It defines an SoC as an integrated circuit that combines all components of an electronic system into a single chip, including digital, analog and radio frequency functions. SoCs are used in smartphones to minimize size and power consumption by integrating components like the CPU, memory, timing sources and peripherals onto one chip. Popular smartphone SoCs include Qualcomm's Snapdragon and Samsung's Exynos, which are based on ARM architecture and include CPU cores, GPU, and cellular radios. Key aspects of SoC processors discussed include cores, clock speed, multi-threading, and why Qualcomm Snapdragon processors are
Powerful SoM based on i.MX 8M Mini processor for various embedded applicationsnie, jack
Measuring 60mm by 49mm, the MYC-C8MMX CPU Module is a low-cost embedded ARM SoM based on NXP’s first embedded multicore applications processor i.MX 8M Mini which features up to 1.8GHz quad-core ARM Cortex-A53 plus 400MHz Cortex-M4 processor,
This document discusses network performance on Intel server platforms. It provides an overview of packet I/O basics like receive and transmit processing. It describes how Data Direct I/O (DDIO) reduces memory accesses from I/O. PCIe bandwidth capabilities are discussed in relation to packet size. Ethernet packet rates and the CPU processing budget needed to support different packet sizes and throughput levels are examined. The document concludes by noting the IPV4 forwarding capacity of Intel platforms over the years.
The document provides an overview of power management from Linux kernel to Android, covering introduction to Linux power management concepts, concepts behind Android power management, design and implementation details, and areas for potential improvements. It describes goals and approaches of Advanced Power Management (APM) and Advanced Configuration and Power Interface (ACPI) in Linux, and how Android power management is built as a slim wrapper on top of Linux power management, utilizing components like wake locks and different types of wake locks to control power state transitions.
Yashi dealer meeting settembre 2016 tecnologie xeon intel italiaYashi Italia
The document discusses new infrastructure solutions for evolving needs, including private cloud, data analytics, performance improvement, and energy efficiency. It describes application-driven allocation of orchestrated compute, network, and storage resources that can be automatically provisioned and managed. The document also covers customized Intel hardware and software optimizations for network applications, including Intel QuickAssist technology, Intel Ethernet controllers, and reliability profiles.
This session provides an architectural introduction of Intel’s enthusiast system solutions, with an emphasis on performance tuning for gaming and content creation. The discussion will include key overclocking ecosystem ingredients such as Intel® Extreme Memory Profile (Intel® XMP) technology. Live demos will accompany our discussion. Attendees will leave with a good understanding of the overclocking capabilities of Intel’s latest processors.
http://myeventagenda.com/sessions/0B9F4191-1C29-408A-8B61-65D7520025A8/7/5
The document describes Fujitsu's VDI bundles, which provide a complete virtual desktop infrastructure solution in a single package. The bundles include pre-configured hardware like Fujitsu zero clients and PRIMERGY servers, as well as pre-installed software including VMware ESXi hypervisor. The bundles are optimized for small to medium businesses and support up to 42 virtual desktops. They offer benefits like reduced complexity, quick deployment, and easy scalability of the VDI solution.
Understanding Intel Products from DarrenYaoYaoDarrenYaoYao
【 Understanding Intel Products 】
Here is the video: https://www.youtube.com/watch?v=aHzHeWHRB1E
Intel is known as a major player in the CPU market and its processors are probably used in your computers.
But, have you ever wondered what else they offer?
In this video, we'll look into the range of products Intel develops.
I divide all Intel products into 10 areas:
1. Processor
2. Graphics
3. Chipsets
4. Wireless
5. Network IO
6. FPGA
7., Mobileye
8. Foundry
9. Server Products
10. Memory/Storage.
After finishing this video, there is one question I don’t know the answer and I want to ask for help.
Does Intel provide WiFi router chips?
If you know the answer, , leave a comment! I'd really appreciate it.
The document discusses and compares several Intel processor architectures and product lines, including:
- Core 2 Duo, an older dual-core architecture that is being replaced by newer Intel processors.
- Core i3, i5, and i7, which use the newer Nehalem/Sandy Bridge/Ivy Bridge architectures. The Core i3 is the budget option with dual-cores while i5 and i7 have quad-cores.
- Differences between the architectures include instruction handling, number of threads, and features like Turbo Boost. The newer architectures generally provide better performance, even at similar clock speeds to older designs.
Intel 4th Gen Core Refresh for EnthusiastMayura Garg
New unlocked 4th generation Intel Core processors deliver uncompromised 4-core, 4GHz performance for enthusiasts. They feature robust overclocking capabilities through independent base clock tuning. Built for enthusiasts, they provide multi-tasking compute performance with 4 cores and up to 8 threads to handle intensive gaming and multimedia creation.
JT1_Universal_Flight_Control_Station 2 (2)Matt Thomas
The JT1 Universal Flight Control Station is a fully customizable command and control system for unmanned aerial vehicles (UAVs) and other aircraft. It uses modular components from top manufacturers to provide high-quality video, comfortable ergonomic seating, and flexible hardware and software interfaces. The system is designed to meet military standards for reliability, durability, and compatibility across missions and platforms.
This document provides historical information on the evolution of computer motherboards from the 1980s to the late 1990s. It lists specifications for motherboards used with early Intel processors like the 8086, 80286, 80386, 486, and Pentium processors. The motherboards span various manufacturers including IBM, Compaq, Dell, and others. Key details provided for each motherboard include the processor, chipset, memory capacity, BIOS, dimensions, and jumper/switch settings for configuration.
The document discusses Intel's upcoming 4th generation Core processor family to be announced on June 4, 2013. It will include mobile, desktop, and low power processors with improved graphics capabilities branded as Intel Iris and Iris Pro. New processors are aimed at driving innovation in thin, flexible, and touch-enabled devices with significant increases in battery life and graphics performance over previous generations.
Power Optimization Through Manycore Multiprocessingchiportal
The document discusses power optimization techniques for mobile devices. It describes how many-core multiprocessing using smaller, more efficient processor cores can improve performance and scalability while reducing power compared to single large cores. Specifically, ARM's big.LITTLE processing combines high-performance Cortex-A15 cores for intensive tasks with power-efficient Cortex-A7 cores for less demanding tasks, allowing dynamic task migration between core types to optimize for both performance and power efficiency. Software changes are needed to decompose tasks and take advantage of the multiple core types.
Технологии Intel для виртуализации сетей операторов связиCisco Russia
This document discusses Intel technologies for network operator virtualization. It summarizes Intel's positioning of products like Xeon processors, Ethernet controllers, and SSDs to help transform telecom networks through network functions virtualization (NFV). NFV aims to reduce costs and speed service deployment by consolidating network infrastructure on standard high-volume servers, switches and storage.
Mitsubishi cnc cv nc e70 series-dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
This document provides release notes for version P17-0076 of the Standard BIOS for Intel OPSD motherboards. The release includes fixes and enhancements such as updated AMI BIOS code, improved ACPI and power management support, updated SMBIOS information, IDE and SATA fixes, and security features. It addresses issues with Windows compatibility, language support, and boot options.
Power Management from Linux Kernel to
Android
For normal desktop computer, power management (PM) is used to reduce power
consumption and reduce cooling requirements. Lower power consumption means
lower heat dissipation, which increases system stability, and less energy use, which
saves money and reduces the impact on the environment. For mobile device and
embedded system device, it’s much more important because the battery power is very
limited. Nowadays, android phone and iPhone are more and more pervasive. There
are more and more sensors and I/O in mobile device that can be used to improve the
effectiveness of PM. The PM needs to be tuned for new mobile device’s need. In this
survey, we want to not only know the power management system used before, but
also want to compare them with the design of Android PM.
This document discusses the history and evolution of mobile phones and personal digital assistants (PDAs) from 1992 to 1996. It notes several important early devices including the Motorola International 3200 phone in 1992, the Nokia 1011 which was the first mass-produced GSM phone, and the IBM Simon personal communicator in 1992, which was the first device to combine PDA and phone functionality. It also mentions the Motorola StarTAC phone in 1996 as the first clamshell cellular phone design.
1) Intel's innovations are inspired by customer demand for increased performance, density, and efficiency in technical computing.
2) The new generation of Intel Xeon 5500 processors provide up to 3x greater performance over previous generations through intelligent performance features like Intel Turbo Boost Technology and increased core counts, while also improving power efficiency.
3) The Intel Xeon 5500 platform is optimized for diverse workloads in fields like weather prediction, computational fluid dynamics, and genomics research to help users scale their performance forward.
The new Z97 overclocking motherboards come with an awesome “M“ and “X” signature on the heatsinks and have a black finish completed with yellow highlights.
This document provides an introduction to system on chip (SoC) based smartphone processors, their working, and architecture. It defines an SoC as an integrated circuit that combines all components of an electronic system into a single chip, including digital, analog and radio frequency functions. SoCs are used in smartphones to minimize size and power consumption by integrating components like the CPU, memory, timing sources and peripherals onto one chip. Popular smartphone SoCs include Qualcomm's Snapdragon and Samsung's Exynos, which are based on ARM architecture and include CPU cores, GPU, and cellular radios. Key aspects of SoC processors discussed include cores, clock speed, multi-threading, and why Qualcomm Snapdragon processors are
Powerful SoM based on i.MX 8M Mini processor for various embedded applicationsnie, jack
Measuring 60mm by 49mm, the MYC-C8MMX CPU Module is a low-cost embedded ARM SoM based on NXP’s first embedded multicore applications processor i.MX 8M Mini which features up to 1.8GHz quad-core ARM Cortex-A53 plus 400MHz Cortex-M4 processor,
This document discusses network performance on Intel server platforms. It provides an overview of packet I/O basics like receive and transmit processing. It describes how Data Direct I/O (DDIO) reduces memory accesses from I/O. PCIe bandwidth capabilities are discussed in relation to packet size. Ethernet packet rates and the CPU processing budget needed to support different packet sizes and throughput levels are examined. The document concludes by noting the IPV4 forwarding capacity of Intel platforms over the years.
The document provides an overview of power management from Linux kernel to Android, covering introduction to Linux power management concepts, concepts behind Android power management, design and implementation details, and areas for potential improvements. It describes goals and approaches of Advanced Power Management (APM) and Advanced Configuration and Power Interface (ACPI) in Linux, and how Android power management is built as a slim wrapper on top of Linux power management, utilizing components like wake locks and different types of wake locks to control power state transitions.
Yashi dealer meeting settembre 2016 tecnologie xeon intel italiaYashi Italia
The document discusses new infrastructure solutions for evolving needs, including private cloud, data analytics, performance improvement, and energy efficiency. It describes application-driven allocation of orchestrated compute, network, and storage resources that can be automatically provisioned and managed. The document also covers customized Intel hardware and software optimizations for network applications, including Intel QuickAssist technology, Intel Ethernet controllers, and reliability profiles.
This session provides an architectural introduction of Intel’s enthusiast system solutions, with an emphasis on performance tuning for gaming and content creation. The discussion will include key overclocking ecosystem ingredients such as Intel® Extreme Memory Profile (Intel® XMP) technology. Live demos will accompany our discussion. Attendees will leave with a good understanding of the overclocking capabilities of Intel’s latest processors.
http://myeventagenda.com/sessions/0B9F4191-1C29-408A-8B61-65D7520025A8/7/5
The document describes Fujitsu's VDI bundles, which provide a complete virtual desktop infrastructure solution in a single package. The bundles include pre-configured hardware like Fujitsu zero clients and PRIMERGY servers, as well as pre-installed software including VMware ESXi hypervisor. The bundles are optimized for small to medium businesses and support up to 42 virtual desktops. They offer benefits like reduced complexity, quick deployment, and easy scalability of the VDI solution.
Understanding Intel Products from DarrenYaoYaoDarrenYaoYao
【 Understanding Intel Products 】
Here is the video: https://www.youtube.com/watch?v=aHzHeWHRB1E
Intel is known as a major player in the CPU market and its processors are probably used in your computers.
But, have you ever wondered what else they offer?
In this video, we'll look into the range of products Intel develops.
I divide all Intel products into 10 areas:
1. Processor
2. Graphics
3. Chipsets
4. Wireless
5. Network IO
6. FPGA
7., Mobileye
8. Foundry
9. Server Products
10. Memory/Storage.
After finishing this video, there is one question I don’t know the answer and I want to ask for help.
Does Intel provide WiFi router chips?
If you know the answer, , leave a comment! I'd really appreciate it.
The document discusses and compares several Intel processor architectures and product lines, including:
- Core 2 Duo, an older dual-core architecture that is being replaced by newer Intel processors.
- Core i3, i5, and i7, which use the newer Nehalem/Sandy Bridge/Ivy Bridge architectures. The Core i3 is the budget option with dual-cores while i5 and i7 have quad-cores.
- Differences between the architectures include instruction handling, number of threads, and features like Turbo Boost. The newer architectures generally provide better performance, even at similar clock speeds to older designs.
Tom Garrison, Vice President of Intel, outlines Intel's business client product launch on January 19th. The launch will feature the 6th generation Intel Core processors, improved security solutions like Intel Authenticate, enhanced workplace collaboration tools, and new small business advantages. Over 200 business PC designs and 100 Intel vPro designs will be shown featuring the new processors and technologies.
Lakefield is Intel's new hybrid core architecture that enables new thin and compact mobile devices. It utilizes 3D Foveros packaging to stack multiple dies, including compute and base dies, into a small 12x12mm package. This new architecture provides significant improvements over previous generations, including around 10x lower standby power, 50% better graphics performance, and smaller core and PCB areas, all while maintaining high performance in a lower total power design point ideal for mobile form factors. Lakefield is slated for production in late 2019.
Optimization Deep Dive: Unreal Engine 4 on IntelIntel® Software
This talk covers the work Intel and Epic Games have done together to enable improved performance of UE4 on Intel platforms, including DirectX 12 and Android. Many techniques presented are general and apply to all games and engines.
This document discusses Intel's hardware and software portfolio for artificial intelligence. It highlights Intel's move from multi-purpose to purpose-built AI compute solutions from the cloud to edge devices. It also discusses Intel's data-centric infrastructure including CPUs, accelerators, networking fabric and memory technologies. Finally, it provides examples of Intel optimizations that have increased AI performance on Intel Xeon scalable processors.
This document discusses scaling Python to HPC and big data environments. It describes how Intel provides Python distributions to improve performance and parallelism. Key points include:
- Intel distributions optimize Python packages like NumPy and SciPy with Intel MKL to improve performance of dense and sparse linear algebra operations.
- Composable multi-threading is supported using Intel TBB to better balance workloads across CPU threads.
- Intel DAAL provides optimized algorithms for machine learning in scikit-learn to accelerate tasks like PCA.
The document outlines techniques Intel uses to make Python more suitable for high performance and big data computing through parallelism, optimized libraries, and integration with frameworks like Spark and TensorFlow.
32nm process technology will be ready for production in Q4 2009. This enables Intel to accelerate the production ramp of Westmere-based processors, which will span desktops, mobiles, and servers. Westmere is a migration of the Nehalem microarchitecture to the 32nm process. It provides increased performance and power flexibility over previous generations.
This document provides an overview of Intel's roadmap for server and client products. For servers, Intel will introduce 45nm quad-core and six-core Xeon processors in 2009 along with new chipsets and platforms to support two-socket and four-socket server configurations. For clients, Intel will launch 45nm Core 2 processors along with new desktop and mobile platforms. Intel will also expand into netbooks and nettops with low-power Atom processors.
Software Development Tools for Intel® IoT PlatformsIntel® Software
This talk familiarizes participants with the benefits of using the Intel® software development tools and libraries for developing end-to-end IoT solutions.
Noile solutii Intel pentru afaceri eficiente-tm-20mai2010Agora Group
This document discusses Intel technologies for efficient IT infrastructures and provides the following key points:
1. Intel has fabrication facilities around the world producing microchips on advanced technology nodes.
2. Intel's Core processor family delivers scalable performance across devices from netbooks to servers through Intel architecture.
3. Intel's new 2010 Core processors feature technologies like Turbo Boost for intelligent performance and integrated graphics.
Noile soluţii Intel pentru afaceri eficiente-23apr2010Agora Group
This document discusses Intel technologies for efficient IT infrastructures and provides the following key points:
1. Intel has fabrication facilities around the world producing microchips on advanced technology nodes.
2. Intel's Core processor family delivers scalable performance across devices from netbooks to servers through Intel architecture.
3. Intel's new 2010 Core processors feature technologies like Turbo Boost for intelligent performance and integrated graphics.
Noile soluţii Intel pentru afaceri eficiente-20apr2010Agora Group
This document discusses Intel technologies for efficient IT infrastructures and provides the following key points:
1. Intel has fabrication facilities around the world producing microchips on advanced technology nodes.
2. Intel's Core processor family delivers scalable performance across devices from netbooks to servers through Intel architecture.
3. Intel's new 2010 Core processor family features improved performance and energy efficiency through technologies like Turbo Boost.
Noile tehnologii INTEL pentru infrastructuri IT eficiente-19mar2010Agora Group
This document discusses Intel technologies for efficient IT infrastructures and provides the following key points:
1. Intel has fabrication facilities around the world producing microchips on advanced technology nodes.
2. Intel's Core processor family delivers scalable performance across devices from netbooks to servers through Intel architecture.
3. Intel's new 2010 Core processors feature technologies like Turbo Boost for intelligent performance and integrated graphics.
E5 Intel Xeon Processor E5 Family Making the Business Case Intel IT Center
This presentation highlights cloud computing advantages of the Intel® Xeon® processor E5 family and helps you make the business case for investing. Includes access to an ROI calculator.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2022/06/optimization-techniques-with-intels-openvino-to-enhance-performance-on-your-existing-hardware-a-presentation-from-intel/
Nico Galoppo, Principal Engineer (substituting for Ansley Dunn, Product Marketing Manager), and Ryan Loney, Technical Product Manager, both of Intel, present the “Optimization Techniques with Intel’s OpenVINO to Enhance Performance on Your Existing Hardware” tutorial at the May 2022 Embedded Vision Summit.
Whether you’re using TensorFlow, PyTorch or another framework, Galoppo and Loney show you optimization techniques to enhance performance on your existing hardware. With the OpenVINO Toolkit, built on the foundation of OneAPI, developers can utilize their own AI model or leverage one of the hundreds of pre-trained models available across vision and audio use cases.
In this presentation, you’ll learn how the Neural Network Compression Framework provides optimal model training templates for performance boosts while preserving accuracy, and how the Model Optimizer reduces complexity and makes model conversion faster. Other areas explored by Galoppo and Loney include auto device discovery to enable automatic load balancing and how to optimize for latency or throughput based on your workload.
Cell Technology for Graphics and VisualizationSlide_N
The document discusses Cell technology for graphics and visualization. It provides an overview of the Cell architecture including its Power Processor Element (PPE) and Synergistic Processor Elements (SPEs). The PPE handles operating system tasks while the SPEs provide computational performance. The document outlines programming models for the Cell including function offload, application specific accelerators, computational acceleration, streaming, and a shared memory multiprocessor model. It also discusses heterogeneous threading and a single source compiler approach.
The document summarizes a proof-of-concept (POC) project conducted by Intel IT to test the performance and total cost of ownership (TCO) of virtualized server platforms based on Intel Xeon and AMD Opteron processors. Key findings from testing various workloads on VMware ESX Server 3.01 include:
- Servers based on Intel Xeon X5355 provided 1.25-2.33x higher absolute performance than AMD Opteron-based servers.
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