Showing posts with label Intel. Show all posts
Showing posts with label Intel. Show all posts

Tuesday, August 6, 2019

Intel announces Cooper Lake with up to 56 cores

The next-generation Intel Xeon Scalable processor platform (codename Cooper Lake) promises twice the processor core count (up to 56 cores), higher memory bandwidth, and higher AI inference and training performance compared to the standard Intel Xeon Platinum 8200 platforms.

Intel says Cooper Lake, which will have platform compatibility with the upcoming 10nm Ice Lake processor, will be the first x86 processor to deliver built-in AI training acceleration through new bfloat16 support added to Intel Deep Learning Boost.

Availability is expected in the first half of 2020.

“We are excited about the early customer deployments of the Intel Xeon Platinum 9200 series that we introduced as part of our 2nd Generation Intel Xeon Scalable processor family. Bringing a 56-core processor into our mainline Intel Xeon Scalable processor family in the next generation will further expand our ability to address customer needs for the highest levels of performance in artificial intelligence, high-performance computing and high-density infrastructure,” stated Lisa Spelman, vice president and general manager of Data Center Marketing, Intel.

Monday, August 5, 2019

Intel ships FPGA acceleration card for HPE Gen10 servers

The new high-performance Intel FPGA Programmable Acceleration Card (Intel FPGA PAC) D5005 is now shipping now in the HPE ProLiant DL3809 Gen10 server.

The Intel FPGA PAC D5005 acceleration card, which is based on an Intel Stratix 10 SX FPGA, provides high-performance inline and lookaside workload acceleration to servers based on Intel Xeon Scalable processors using the Intel Acceleration Stack, which includes acceleration libraries and development tools. Initial workloads specifically developed for the Intel FPGA PAC D5005 accelerator card include:

  • AI (speech-to-text translation) from Myrtle
  • Network security from Algo-Logic
  • Image transcoding from CTAccel
  • Video transcoding from IBEX


Compared with the Intel programmable acceleration card with Intel Arria 10 GX FPGA, the Intel FPGA PAC D5005 accelerator card offers significantly more resources including three times the amount of programmable logic, as much as 32 GB of DDR4 memory (a 4x increase) and faster Ethernet ports (two 100GE ports versus one 40GE port). With a smaller physical and power footprint, the Intel PAC with Intel Arria 10 GX FPGA fits a broader range of servers, while the Intel PAC D5005 is focused on providing a higher level of acceleration.

“The HPE ProLiant Gen10 server family is the world’s most secure, manageable and agile server platform available on the market today. By integrating the Intel FPGA PAC D5005 accelerator into the HPE ProLiant DL380 Gen10 server, we are now delivering optimized configurations for an increasing number of workloads, including AI inferencing, big data and streaming analytics, network security and image transcoding. Combined with our broad portfolio of services from HPE Pointnext, we enable our customers to accelerate time-to-value and increase ROI,” stated Bill Mannel, vice president and general manager, HPC and AI, at Hewlett Packard Enterprise.

Intel launches FPGA-based accelerator for 5G core and vRAN
Intel is introducing an FPGA-based acceleration card for 5G core and virtualized radio access network solutions.

The Intel FPGA Programmable Acceleration Card N3000 is designed to accelerate network traffic for up to 100 Gbps and supports up to 9GB DDR4 and 144MB QDR IV memory for high-performance applications. Programmability and flexibility of an FPGA allow customers to create tailored solutions by utilizing reference IPs for networking function acceleration workloads such as vRAN, vBNG, vEPC, IPSec and VPP.

Affirmed Networks is using Intel’s FPGA PAC in a new solution for 5G core network (CN)/evolved packet core – a 200 Gbps/server that provides smart load balancing and CPU cache optimizations.

Rakuten, the soon to be the operator of Japan’s newest mobile network, is including Intel x86 and FPGA-based PAC for acceleration from the core to the edge to provide the first end-to-end cloud-native mobile network. Intel FPGA PAC N3000 is the distributed unit accelerator next to Intel® Xeon Scalable processor where Layer 1 functions, such as forward error correction and front haul transmission, are offloaded onto an Intel FPGA.

Thursday, July 25, 2019

Intel posts strong Q2 results, shipments to Huawei have resumed

Intel reported second-quarter revenue of $16.5 billion, down 3% year-over-year (YoY), but exceeding its financial guidance issued in April.  GAAP EPS was $0.92, a decline of 12 percent YoY; non-GAAP EPS was $1.06, up 2 percent.

“Second quarter results exceeded our expectations on both revenue and earnings, as the growth of data and compute-intensive applications are driving customer demand for higher performance products in both our PC-centric and data-centric businesses,” said Bob Swan, Intel CEO. “Based on our outperformance in the quarter, we’re raising our full-year guidance. Intel’s ambitions are as big as ever, our collection of assets is unrivaled, and our transformation continues.”

Some highlights:
  • The PC-centric business (CCG) was up 1 percent in the second quarter due to a strong mix of Intel's higher performance products, strength in the commercial segment, and customers buying ahead of possible tariff impacts. New, 10nm-based 10th Gen Intel Core processors (code-named "Ice Lake") are now shipping, and expected to be in volume systems on retail shelves this 2019 holiday selling season.
  • Collectively, Intel's data-centric businesses declined 7 percent YoY in the second quarter. In the Data Center Group (DCG), the communications service provider segment grew 3 percent while the cloud segment declined 1 percent and enterprise and government revenue declined 31 percent.  The Internet of Things Group (IOTG) achieved record revenue, up 12 percent YoY (23 percent excluding Wind River) on broad strength and increased demand for higher performance processors. 
  • Mobileye achieved second-quarter revenue of $201 million, up 16 percent YoY on continued customer momentum. 
  • Intel's memory business (NSG) was down 13 percent YoY in a challenging pricing environment. Intel's Programmable Solutions Group (PSG) revenue was down 5 percent YoY in the second quarter.

Some notes from the conference call:
  • Cloud customers are absorbing resources that were put in place over the past year. Intel expects demand from this sector to pick up in the second half of the year
  • Government spending was weak, particularly in China.
  • Trade uncertainty is driving pull-ins from 2H
  • Intel suspended shipment of products to "certain customers" that were added to the U.S. government entity list, but was able to resume shipments. The financial impact for the quarter was limited.
  • Further tightening of export restrictions could impact future results
  • 10nm FPGAs will be shipping in 2H19
  • Optane is gaining momentum
  • Snowridge silicon for 5G basestations will be in production early next year
  • The acquisition of Barefoot Networks was completed this week.
  • There are now 2 fab facilities on 10nm and 7nm is on track for 2021





Apple to acquire Intel's modem business for $1 billion

Apple agreed to acquire the majority of Intel’s smartphone modem business for $1 billion. The deal includes intellectual property, equipment, leases and approximately 2,200 Intel employees.

Combining the acquired patents for current and future wireless technology with Apple’s existing portfolio, Apple will hold over 17,000 wireless technology patents, ranging from protocols for cellular standards to modem architecture and modem operation. Intel will retain the option to develop modems for non-smartphone applications, such as PCs, internet of things devices and autonomous vehicles.

“This agreement enables us to focus on developing technology for the 5G network while retaining critical intellectual property and modem technology that our team has created,” said Intel CEO Bob Swan. “We have long respected Apple and we’re confident they provide the right environment for this talented team and these important assets moving forward. We’re looking forward to putting our full effort into 5G where it most closely aligns with the needs of our global customer base, including network operators, telecommunications equipment manufacturers and cloud service providers.”

“We’ve worked with Intel for many years and know this team shares Apple’s passion for designing technologies that deliver the world’s best experiences for our users,” said Johny Srouji, Apple’s senior vice president of Hardware Technologies. “Apple is excited to have so many excellent engineers join our growing cellular technologies group, and know they’ll thrive in Apple’s creative and dynamic environment. They, together with our significant acquisition of innovative IP, will help expedite our development on future products and allow Apple to further differentiate moving forward.”

Apple and Qualcomm reach global settlement

Apple and Qualcomm agreed to settle all pending litigation worldwide and announced a multiyear chipset supply deal.

Under the agreement, Apple will pay royalties to Qualcomm for six years, including a two-year option to extend. Apple will also make a one-time payment to Qualcomm. Financial terms were not specified.

Intel abandons 5G smartphone modem business

Intel will exit the 5G smartphone modem business. The company said it will continue to meet current customer commitments for its existing 4G smartphone modem product line, but does not expect to launch 5G modem products in the smartphone space, including those originally planned for launches in 2020.


“We are very excited about the opportunity in 5G and the ‘cloudification’ of the network, but in the smartphone modem business it has become apparent that there is no clear path to profitability and positive returns,” said Intel CEO Bob Swan. “5G continues to be a strategic priority across Intel, and our team has developed a valuable portfolio of wireless products and intellectual property. We are assessing our options to realize the value we have created, including the opportunities in a wide variety of data-centric platforms and devices in a 5G world.”


Intel outlines its 5G radio modem portfolio

Intel outlined its product roadmap for 5G silicon. First up is Intel XMM 8000 series, a family of 5G new radio (5G NR) multi-mode commercial modems, and the Intel XMM 7660 LTE modem.

Highlights of Intel’s wireless roadmap:

  • Intel XMM 8000 series: will operate in both sub-6 GHz and millimeter wave global spectrum bands. Intel is aiming to enable a range of devices to connect to 5G, including PC, phones, fixed wireless consumer premise equipment (CPE) and vehicles.
  • Intel XMM 8060: will offer multi-mode support for the full 5G non-standalone and standalone NR, as well as various 2G, 3G (including CDMA) and 4G legacy modes. It is expected to ship in commercial customer devices in mid-2019. Intel is targetting broad deployment of 5G networks in 2020.
  • Intel XMM 7660: Intel’s latest LTE modem delivers Cat-19 capabilities, supports speeds up to 1.6 Gbps, and features advanced multiple-input and multiple-output (MIMO), carrier aggregation and a broad range of band support. It will ship in commercial devices in 2019.
Intel also announced it has successfully completed a full end-to-end 5G call based on its early 5G silicon over the 28GHz band. Intel says it is participating in dozens of 5G trials around the world.

Intel Mobile Communications Group Integrates Infineon Wireless

Intel acquired Infineon Technologies' Wireless Solutions (WLS) business. The deal expands Intel's current Wi-Fi and 4G WiMAX portfolio to include Infineon's 3G capabilities. Intel said the acquisition also accelerates its entry into LTE.

WLS is a leading provider of cellular platforms to top-tier global phone makers, and is part of Intel's strategy to accelerate always-connected computing platforms that span a variety of device and market segments, including laptops, cars, smart phones, tablets and smart TVs.

"As computing spreads across a range of connected devices, including new categories being created almost daily, we must be ready to support the next billion devices across multiple networks with smart, secure and seamless computing experiences," said Dadi Perlmutter, Intel executive vice president and co-general manager of the Intel Architecture Group. "The acquisition brings to Intel a world-class wireless portfolio and a proven track record in cellular communications, combined with our existing strength in computing positions us well for future growth."

The new wireless business will now be called Intel Mobile Communications (IMC) and will operate as a standalone business entity within Intel's Architecture Group to enable continuity of existing customer sales, projects and support, including ARM-based products.

Sunday, July 21, 2019

Running SAP HANA with Intel Optane DC persistent memory delivers boost

Intel and SAP announced a multiyear technology partnership focused on optimizing Intel’s Xeon Scalable processors and Optane DC persistent memory for SAP’s end-to-end enterprise software applications, including SAP S/4HANA.

The companies claim that running SAP HANA–based applications within Intel Optane DC persistent memory may significantly reduce the complexity and risk of running real-time in-memory applications by providing persistent data that is more resilient to computer outages, without compromising security. SAP HANA customers deploying Intel Optane DC persistent memory are capable of reducing data recovery times from 50 minutes to 4 minutes on a 6TB SAP HANA instance1. Intel Optane DC persistent memory delivers significantly denser memory, which enables customers to do more data processing within the same server – intended for cost savings and enabling new capabilities for customers converting to SAP S/4HANA.

“For more than a decade, Intel and SAP have engaged closely on developing differentiated breakthrough technologies that make organizations run more efficiently, and with today’s news we will further accelerate our technology collaboration and grow the value that we deliver to our customers. Broadening our technology collaboration with SAP means our mutual customers will be able to achieve faster insights from the largest data challenges, delivering a competitive edge,” stated Navin Shenoy, Intel executive vice president and general manager of the Data Center Group.

https://newsroom.intel.com/news/intel-sap-broaden-technology-partnership-power-enterprises-digital-transformation/#gs.qpsd6m

Wednesday, July 17, 2019

Next Gen Central Office (NGCO) puts x86 servers at the core

In this episode of our NGCO series, Alex Quach, Vice President and General Manager of Intel's Wireline and Core Networks Division, talks about how telcos are reinventing the central office architecture to take advantage of server economics.

A "2019 Next-Generation Central Office Report" from AvidThink is available for download. It covers the evolution in NGCO, recent trends, and key projects like CORD and VCO, as well as the role of the NGCO in new applications in edge computing and SD-WAN/vCPE.

https://nginfrastructure.com/


Monday, July 15, 2019

Intel releases Loihi research chip for neuromorphic processing

Intel introduced an 8 million-neuron neuromorphic system comprising 64 Loihi research chips — codenamed Pohoiki Beach.

Intel says the highly specialized processor applies principles found in biological brains to computer architectures. The Loihi devices aime to process information up to 1,000 times faster and 10,000 times more efficiently than CPUs for specialized applications like sparse coding, graph search and constraint-satisfaction problems.

“We are impressed with the early results demonstrated as we scale Loihi to create more powerful neuromorphic systems. Pohoiki Beach will now be available to more than 60 ecosystem partners, who will use this specialized system to solve complex, compute-intensive problems,” stated Rich Uhlig, managing director of Intel Labs.



https://newsroom.intel.com/news/intels-pohoiki-beach-64-chip-neuromorphic-system-delivers-breakthrough-results-research-tests/#gs.pyxrlk

Tuesday, July 2, 2019

Intel names Baidu as an AI development partner

Intel confirmed that it is collaborating with Baidu on development of the new Intel Nervana Neural Network Processor for Training (NNP-T). The collaboration involves the hardware and software designs of the new custom accelerator with one purpose – training deep learning models at lightning speed.

Since 2016, Intel has been optimizing Baidu’s PaddlePaddle deep learning framework for Intel® Xeon Scalable processors. Now, the companies give data scientists more hardware choice by optimizing the NNP-T for PaddlePaddle.

"The next few years will see an explosion in the complexity of AI models and the need for massive deep learning compute at scale. Intel and Baidu are focusing their decade-long collaboration on building radical new hardware, co-designed with enabling software, that will evolve with this new reality – something we call ‘AI 2.0,"  stated Naveen Rao, Intel corporate vice president and general manager of the AI Products Group.

Friday, June 14, 2019

Intel backs early-stage start-ups in Israel

Intel is launching an incubation program focused on early-stage startup companies in Israel in key segments, including artificial intelligence (AI), autonomous systems and other data-centric technologies and business models.

The Intel Ignite program, which is based in Tel Aviv, will leverage Intel’s global market access and business and technology leadership to provide early-stage startups with unique advantages on their paths to disrupt the future.

Intel will host 10 to 15 top pre-seed to seed startups through a 20-week program where they will receive hands-on mentorship from Intel and industry experts in a variety of product, business, management and technical areas. Intel is committed to accelerate their growth and scale their ideas for greater impact.

“Intel has always worked in concert with open ecosystems to scale new technologies so they can be transformational for our customers, business and society. This process is fueled by the innovation and passion of the startup community,” said Intel CEO Bob Swan. “Israel has the deep skill base in AI, autonomous systems and the underlying technologies critical to these inflections that make it a natural choice to launch our Ignite program.”

Monday, June 10, 2019

Intel to acquire Barefoot Networks for programmable switching silicon

Intel agreed to acquire Barefoot Networks, a start-up developing programmable Ethernet switch silicon and software for use in the data center. Financial terms were not disclosed.

Intel said the acquisition will support its focus on end-to-end cloud networking and infrastructure, enabling it to better compete in the Ethernet switching segment.

Barefoot, which is based in San Jose, California, is shipping the second generation of its P4-programmable Tofino Ethernet switch application-specific integrated circuit (ASIC) family.

Tofino 2 delivers 12.8 Tbps of packet processing capacity for hyperscale data centers, cloud, enterprise and service provider networks. The device leverages 7nm process technology and is designed for full P4-programmability.

Tofino 2 highlights:

  • World’s first 7nm switch ASIC 
  • Supports up 32x400GE on a single chip.
  • Supports up to 256x10/25/50GE ports on a single chip.
  • Fully P4-programmable, enabling various deployment options, from a standard top-of-rack switch to a service provider router, or even a feature-rich switch appliance. 

  • Support for extra large table sizes for routing, tunnels, and access control lists (ACLs).
  • Support for Barefoot SPRINT- Barefoot's enhanced version of the industry-standard In-band Network Telemetry (INT), providing fine-grained per-packet intelligent real-time visibility of network traffic. 
  • Leverages the growing industry-wide P4 Ecosystem supported by multiple switch and network interface controller (NIC) chips.
  • Modular architecture enabling rapid integration of 112G SerDes and silicon photonics.
Tofino 2 was announced in December 2018. Customers cited in the Barefoot press release include Goldman Sachs, Cisco, Alibaba Infrastructure Services, Tencent, Baidu, JD Cloud, and Ucloud. Barefoot has also announced design wins with Arista, Edgecore and others.

https://www.barefootnetworks.com/
https://newsroom.intel.com/editorials/intel-acquire-barefoot-networks/#gs.i7cnfy

Founded in 2013, Barefoot is backed by investors including Andreessen Horowitz, Lightspeed Venture Partners and Sequoia Capital. The company has raised approximately $155 million in five funding rounds, most recently raising $23 million in November 2016 in a round led by Alibaba and Tencent.


Thursday, May 9, 2019

Verizon tests full virtualization of baseband functions

In a trial environment conducted with Nokia and Intel in California, Verizon achieved full virtualization of baseband functions – the heaviest portion of computing on the Radio Access Network (RAN).

Intel provided its Xeon Scalable processor-based platforms and FlexRAN reference architecture while Nokia provided its new AirScale All-in-Cloud Base Station architecture.

Verizon said this virtualization will enable the network to be hardware agnostic, using Common Off-The-Shelf (COTS) hardware, leading to greater flexibility and speed to deployment of products and services.

“Having virtualized the core of the network last year, this significant step forward in virtualizing the RAN edge is a critical piece of providing the next generation of wireless solutions for consumers and enterprises,” said Adam Koeppe, Senior Vice President of Network Planning.  “With a virtualized baseband unit, we will lay the foundation to be able to move computing functionality to the edge of the network and will be able to rapidly respond to customers’ varied latency and computing needs.”

"Nokia is a leader in driving and commercializing Cloud RAN innovations, and we are excited to be a part of this collaborative work that represents a key milestone for Verizon’s cloud migration,” said Michael Clever, Senior Vice President and Head of Cloud RAN, Nokia. “This successful trial is an important step in offering flexible and scalable capacity, plus continuous software delivery.”

https://www.verizon.com/about/news/verizon-multi-access-edge-compute-network-slicing

Thursday, April 25, 2019

Intel's data centric revenue dips 5%

Intel reported first quarter revenue of $16.1 billion, flat year-over-year (YoY), with GAAP earnings-per-share (EPS) of $0.87, a decline of 6 percent YoY.

Intel's data-centric revenue declined 5 percent while PC-centric revenue grew 4 percent. The company also trimmed its outlook for the rest of the year.

"Results for the first quarter were slightly higher than our January expectations. We shipped a strong mix of high-performance products and continued spending discipline while ramping 10nm and managing a challenging NAND pricing environment. Looking ahead, we're taking a more cautious view of the year, although we expect market conditions to improve in the second half," said Bob Swan, Intel CEO.

Highlights:

  • In the Data Center Group (DCG), the cloud segment grew 5 percent while the communications service provider segment declined 4 percent and enterprise and government revenue declined 21 percent. 
  • First-quarter Internet of Things Group (IOTG) revenue grew 8 percent YoY (19 percent excluding Wind River1), and Mobileye achieved record first-quarter revenue of $209 million, up 38 percent YoY as customer momentum continued. 
  • Intel's memory business (NSG) was down 12 percent YoY in a challenging pricing environment. 
  • Intel's Programmable Solutions Group (PSG) revenue was down 2 percent YoY in the first quarter.

Tuesday, April 16, 2019

Intel acquires Omnitek for FPGA expertise

Intel has acquired Omnitek, a provider of optimized video and vision FPGA IP solutions based in Basingstoke, England. Financial terms were not disclosed.

Omnitek was founded in 1998 and has developed over 220 FPGA IP cores and accompanying software including performance-leading solutions for WARP, ISP processing and video connectivity. Omnitek enables customized high-performance vision and artificial intelligence (AI) inferencing capabilities on FPGAs for customers across a range of end markets.

“Omnitek’s technology is a great complement to our FPGA business. Their deep, system-level FPGA expertise and high-performance video and vision-related technology have made them a trusted partner for many of our most important customers. Together, we will deliver leading FPGA solutions for video, vision and AI inferencing applications on Intel FPGAs and speed time-to-market for our existing customers while winning new ones,” Dan McNamara, Intel senior vice president and general manager of the Programmable Solutions Group.

“From data centers to devices, compute-intensive applications like 8K video and artificial intelligence require a multitude of innovative compute engines. FPGA devices play an increasingly critical role, often complementing other processing architectures, and Intel is at the center of this revolution,” said Roger Fawcett, CEO of Omnitek. “Omnitek is excited and extremely proud to bring our intellectual property and engineers to join the talented team in Intel’s Programmable Solutions Group.”

Wednesday, April 3, 2019

Intel to introduce 100G Ethernet adapter

Intel announced its first Ethernet 800 Series adapter with Application Device Queues (ADQ) technology, which increases application response time predictability while reducing application latency and improving throughput.

The Intel Ethernet 800 series adapter features up to 100Gbps port speeds and is aimed at moving massive amounts of data in cloud, communications, storage and enterprise market segments.

Intel has shipped over 1.3 billion Ethernet ports to date.

https://newsroom.intel.com/news-releases/intel-data-centric-launch/

Tuesday, April 2, 2019

Intel Xeon processors pack up to 56 cores, add capabilities

The 2nd-Gen Intel Xeon Scalable platform will deliver an evolutionary leap in agility and scalability.

At Intel’s “Data-Centric Innovation Day” in San Francisco, the company outlined many new Xeon benchmarks and capabilities:

  • Support for Intel Optane DC persistent memory, delivering up-to 36TB of system-level memory capacity when combined with traditional DRAM.
  • Intel Turbo Boost Technology 2.0 ramps up-to 4.4GHz, alongside memory subsystem enhancements with support for DDR4-2933 MT/s and 16 Gb DIMM densities.
  • Built-in Intel Deep Learning Boost delivers up to 14x2 inference throughput improvement, and combined with software optimized Intel Distribution of OpenVINO toolkit
  • Intel Speed Select will enable new Xeon Scalable processors to be configured to performance settings of core counts and frequencies, effectively creating “Three CPUs in One.”
  • Enhanced Intel Infrastructure Management Technologies will enable increased utilization and workload optimization across data center resources.
  • New side-channel protections are directly incorporated into hardware.
  • Intel Security Libraries for Data Center (Intel SecL-DC) is designed to simplify the integration and deployment of hardware-rooted Intel security technologies at cloud scale. Intel SecL-DC brings optimized programming interfaces and management tools for many Intel security technologies together in one easy-to-use set of libraries and tools compatible with cloud environments like OpenStack, Docker and Kubernetes Extensions. 
  • For security-sensitive organizations, Intel engineers have worked with Lockheed Martin to deliver a new hardened virtualization platform. This Intel Select Solution for Hardened Security with Lockheed Martin is a full-stack solution, from hardware through hypervisor that features greater data confidentiality through VM memory encryption and cache isolation. It offers robust platform integrity with trusted boot all the way through to runtime, and improved availability through more deterministic Quality of Service and protections from Noisy Neighbors.
  • The new Intel Xeon Platinum 9200 processors feature up to 56 cores and 12 memory channels to deliver breakthrough levels of performance with the highest Intel architecture FLOPS per rack, along with the highest DDR4 native memory bandwidth support of any Intel Xeon processor platform.
  • The new Intel Xeon Platinum Processor (8200 Series) will offer up to 28 cores and 2, 4 and 8+ socket configurations.
  • The Intel Xeon Gold Processor (6200 Series) is Networking Specialized (NFVi optimized) with Intel Speed Select Technology – Base Frequency. It offers up to 1.76x NFV workload perf improvement and additional flexibility to enable up to 8 high-priority cores that support virtualized workload acceleration for maximum performance and power efficiency. It scales to up to 24 cores.

https://newsroom.intel.com/news/fact-sheet-intel-unveils-new-technologies-accelerate-innovation-data-centric-world/#gs.3lgjeu



Intel's 10nm Agilex FPGA targets embedded, network and data centers

Intel introduced its new  Intel an"Agilex" field programmable gate array (FPGA) family targetted at embedded, network and data center markets.

The Intel Agilex family combines FPGA fabric built on Intel’s 10nm process with innovative heterogeneous 3D SiP technology. This provides the capability to integrate analog, memory, custom computing, custom I/O, and Intel eASIC device tiles into a single package with the FPGA fabric.

Intel delivers a custom logic continuum with reusable IPs through a migration path from FPGA to structured ASIC. One API provides a software-friendly heterogeneous programming environment, enabling software developers to easily access the benefits of FPGA for acceleration.

Intel said the new product is the first FPGA to support Compute Express Link, a cache and memory coherent interconnect to future Intel Xeon Scalable processors.

Agilex also supports 2nd-generation HyperFlex Architecture, which offers up to 40 percent higher performance, or up to 40 percent lower total power compared with Intel Stratix 10 FPGAs. The new Agilex family is also the only FPGA supporting hardened BFLOAT16 and up to 40 teraflops of digital signal processor (DSP) performance (FP16). It also supports Peripheral component interconnect express (PCIe) Gen 5.

The Agilex transceiver supports up to 112 Gbps data rates. Advanced memory support includes DDR5, HBM, and Intel Optane DC persistent memory.

“The race to solve data-centric problems requires agile and flexible solutions that can move, store and process data efficiently. Intel Agilex FPGAs deliver customized connectivity and acceleration while delivering much needed improvements in performance and power1,2 for diverse workloads," stated Dan McNamara, Intel senior vice president, Programmable Solutions Group.

https://newsroom.intel.com/news/intel-driving-data-centric-world-new-10nm-intel-agilex-fpga-family/#gs.3lgdg8

George Davis leaves Qualcomm to join Intel as CFO

Intel announced the appointment of George S. Davis as executive vice president and chief financial officer (CFO).

Davis, 61, joins Intel from Qualcomm Inc., where he served as executive vice president and CFO since March 2013. At Qualcomm, Davis served on the company’s executive committee and was responsible for leading the global finance organization, IT and investor relations. Prior to Qualcomm, Davis served six years as CFO for Applied Materials, with responsibility for finance, IT, strategy and corporate development, as well as government relations.

“I’m thrilled to be joining the Intel team,” Davis said. “With demand for the analysis, transmission and storage of data growing faster than ever, no company in the world is better positioned to capitalize on that opportunity than Intel. It’s an exciting time for Intel, and I’m looking forward to playing a role in the company’s transformation.”

Monday, April 1, 2019

Intel Capital invests in 14 start-ups

Intel Capital announced new investments totaling $117 million in the following 14 startups:

AI

Cloudpick Limited (Shanghai, China) is a smart retail technology provider. With proprietary computer vision, deep learning, sensor fusion and edge computing technologies, Cloudpick enables highly digitized, intelligent, cashier-free stores with grab-and-go shopping experiences. Cloudpick has collaborated with e-commerce companies, traditional retailers and payment partners worldwide to upgrade many brick-and-mortar stores’ shopping experiences.

SambaNova Systems (Palo Alto, California, U.S.) is a rapidly growing Silicon Valley-based company that is building the industry’s most advanced systems platform to run AI applications from the data center to the edge. Founded by industry pioneers and experts in systems hardware and software design from Oracle, Sun Microsystems and Stanford University, SambaNova Systems’ mission is to bring AI innovations discovered in deep research to enterprises and organizations in all industries around the world, creating AI for everyone, everywhere.

Untether AI (Toronto, Ontario, Canada) is developing ultra-efficient, high-performance AI chips that will be the foundation for the next wave of innovation in AI. Untether AI has invented an entirely new type of chip architecture that is specifically designed for neural net inference by eliminating bottlenecks in data movement. This unique architecture moves data 1,000 times faster than traditional architectures, resulting in extreme performance and efficiency. The company was founded by a team of scientists, engineers and experienced entrepreneurs who have successfully brought to market more than 1 billion chips.

Zhuhai EEasy Technology Co. Ltd. (Zhuhai, China) is an AI system-on-chip (SoC) design house and total solution provider. Its offerings include AI acceleration; image and graphic processing; video encoding and decoding; and mixed-signal ULSI design capabilities. Its AI SoCs targeting video, automotive and smart devices will enter mass-production in late 2019.

Communications

Mighty Networks (Palo Alto, California, U.S.) is designed for brands and businesses to bring people together by offering community, content, online courses and subscription commerce in one place. The company is unique in serving a new breed of digitally native “creators with a purpose” selling experiences, connections and expertise to their followers – an emerging category of digital services called Experiential Commerce.

Pixeom (Santa Clara, California, U.S.) is redefining how enterprises manage hybrid cloud resources with its edge computing software platform that re-creates and orchestrates cloud functionality on-premise. It makes it easy to deploy and manage large-scale, geographically distributed infrastructure and workloads.

Polystream (Guildford, U.K.) is a deep-tech startup fundamentally changing how video games and demanding 3D applications are delivered via the cloud. Polystream’s Software Defined Imaging technology enables interactive graphics content to be streamed at unprecedented scale, with truly global reach.

Tibit Communications (Petaluma, California, U.S.) is developing next-generation devices to provide a broadband onramp to the home, office or cell site, managed virtually from the cloud to the user. Tibit replaces dedicated hardware boxes in carrier and enterprise networks with a small module connected to a standard Ethernet switch – providing significant savings of cost, power and space.

Healthcare

Medical Informatics Corp. (Houston, Texas, U.S.) is a software-based monitoring and analytics company. Its revolutionary Sickbay* platform archives, aggregates and transforms otherwise not-recorded, high-resolution waveform data across disparate devices to enable anywhere, anytime remote monitoring across the continuum of care. The same platform can then be leveraged to use machine learning and AI to deploy real-time, predictive, critical care analytics that get ahead of deterioration and risk and enable data-driven medicine and patient-centered care.

https://www.revealbio.com/Reveal Biosciences, Inc. (San Diego, California, U.S.) is creating a new generation of data-powered pathology to improve global healthcare. ImageDx, a proprietary deep-learning platform, delivers pathologists and scientists a novel class of actionable, quantitative data to accelerate research and enhance patient care.

Manufacturing

Landing AI (Palo Alto, California, U.S.) provides AI-powered SaaS solutions and corporate-level AI transformation programs to turn enterprises into AI companies. Founded by Dr. Andrew Ng, the Landing AI team enables companies in industries, including manufacturing and agriculture, to develop and execute cohesive AI strategies.

OnScale (Cupertino, California, U.S.) offers on-demand scalable engineering simulation software, empowering engineers to accelerate innovation across multiple industries, including next-generation technologies such as MEMS IoT, 5G, biomedicine and autonomous vehicles. OnScale combines powerful multiphysics solver technology, used and validated by Fortune 50 companies for over 30 years, with the speed and flexibility of cloud high-performance computing (HPC). By removing the constraints of legacy simulation tools, OnScale allows engineers to dramatically reduce cost, risk and time to market for cutting-edge technologies.

proteanTecs (Haifa, Israel) develops revolutionary Universal Chip Telemetry for electronic systems throughout their entire lifecycle, increasing their performance and reliability. By applying machine learning to novel data created by embedded agents, proteanTecs provides meaningful insights unattainable until today, leading to new levels of quality, reliability and scale.

Qolibri, Inc. (Roseville, California, U.S.) is a creative technical company developing breakthrough proprietary solutions that address problems in semiconductor subfabs. The Qolibri team has extensive expertise in semiconductor capital equipment technology and renewable energy. Qolibri technologies will change the landscape of the subfab, leading to substantially reduced chip manufacturing costs with positive environmental impact.

“Intel has driven disruption for the last 50 years, changing the way we live by making compute ubiquitous. Intel Capital is continuing that legacy of disruption with these investments,” said Wendell Brooks, Intel senior vice president and president of Intel Capital. “These companies are shifting the way we think about artificial intelligence, communications, manufacturing and health care – areas that will become increasingly essential in coming years as the linchpins of a smarter, more connected society.”

The investments extend Intel Capital’s recent strategy of taking larger, more strategic positions in portfolio startups. Each year, Intel Capital puts $300 million to $500 million into innovative companies across a wide range of emerging technologies making the impossible possible.

Monday, March 25, 2019

Intel's board extends chairman's term to 2020

Intel's board of directors has extended Andy Bryant’s term as Intel chairman for one additional year, to help support Intel’s leadership transition.

If Bryant is re-elected at Intel’s 2019 annual stockholders’ meeting, his term as chairman would continue through the conclusion of Intel’s 2020 annual stockholders’ meeting. Bryant has informed the board that he does not expect to stand for re-election again in 2020.

“I am honored to be nominated to serve as a director and Intel’s chairman for another year,” Bryant said. “If re-elected by the stockholders at our annual meeting in May, I look forward to continuing to work with Bob, the board and the entire executive team to continue Intel’s historic transformation to a data-centric company. I expect this would be my last year of service as a member of Intel’s board.”

Tuesday, March 5, 2019

Intel integrates 58Gbps transceiver on its Stratix 10 TX FPGA

Intel’s Programmable Solutions Group has integrated 58Gbps transceiver technology on its Stratix 10 TX field programmable gate array (FPGA). The 58Gbps PAM4 transceiver technology now shipping in volume production and enabling 400Gb Ethernet deployment.

“As we continue to deliver product innovations and capabilities that allow for higher data ingest and processing speeds critical for networking and data center applications, this is a powerful example of how Intel FPGAs bring real value to our customers,” stated Dan McNamara, Intel senior vice president and general manager of the Programmable Solutions Group.

By supporting dual-mode modulation, 58Gbps PAM4 and 30Gbps NRZ, new infrastructure can reach 58Gbps data rates while staying backward-compatible with existing network infrastructure.

“The 400Gb Ethernet and QSFP-DD market is evolving at a fast pace. And being first to market with a portable solution is instrumental to enable the transition from lab to the field. We were excited to work closely with Intel to deliver our next-generation test module with the only production FPGA technology supporting native 58Gbps PAM4,” says Ildefonso M. Polo, vice president of Product Marketing at VeEX.

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