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

Sunday, October 14, 2018

Intel + Ovum: How big is the 5G opportunity?

How big is the 5G opportunity?

Well, according to a newly released “5G Economics of Entertainment Report” commissioned by Intel and conducted by Ovum, it is forecast that over the next decade (2019-2028) media and entertainment companies will be competing to win a share of a near $3 trillion cumulative wireless revenue opportunity.

Experiences enabled by 5G networks will account for nearly half of this revenue opportunity (close to $1.3 trillion).

“5G will inevitably shake up the media and entertainment landscape. It will be a major competitive asset if companies adapt. If not, they risk failure or even extinction. This wave of 5G transformation will not be the purview of any singular industry, and now is certainly the time for all business decision-makers to ask: Is your business 5G-ready?” stated  Jonathan Wood, general manager of Business Development & Partnerships, 5G Next Generation and Standards at Intel

Some highlights:

  • 2022: 5G accounts for nearly 20 percent of total telecom revenues – $47 billion of $253 billion
  • 2025: more than 55 percent of total revenues – $183 billion of $321 billion
  • 2028: nearly 80 percent of total revenues – $335 billion of $420 billion. The average monthly traffic per 5G subscriber will grow from 11.7GB in 2019 to 84.4GB per month in 2028, at which point video will account for 90 percent of all 5G traffic.




Wednesday, October 10, 2018

Intel Vision Accelerator targets AI inference on edge devices

Intel unveiled its family of Intel Vision Accelerator Design Products targeted at artificial intelligence (AI) inference and analytics performance on edge devices. Two acceleration solutions are being introduced: one that features an array of Intel Movidius vision processors and one built on the high-performance Intel Arria 10 FPGA.

The devices could be used to build vision-based AI accelerator cards that collect and analyze data right on edge devices for real-time decision-making. AI workloads are offloaded from the system CPU.

“Until recently, businesses have been struggling to implement deep learning technology. For transportation, smart cities, healthcare, retail and manufacturing industries, it takes specialized expertise, a broad range of form factors and scalable solutions to make this happen. Intel’s Vision Accelerator Design Products now offer businesses choice and flexibility to easily and affordably accelerate AI at the edge to drive real-time insights,” stated Jonathan Ballon, Intel vice president and general manager, Internet of Things Group

Intel said developers it is working with have achieved up to 9.6X times using accelerator cards powered by these devices.

Monday, October 1, 2018

Intel touts new Xeon server performance benchmarks

Intel reported 95 new performance world records for its Xeon Scalable processors as achieved in servers from major original equipment manufacturers, ranging from single-socket systems up to eight-socket systems.

The new performance benchmarks were achieved in a variety of server platforms, ranging from general computing workloads running on single-socket systems to advanced technical computing and big data analytics workloads running on eight-socket systems. All systems tested include mitigations for Spectre and Meltdown.

“I’m extremely proud of the 95 world record performance benchmarks that our partners have delivered, but even more delighted to see the real-world performance that our customers are achieving on the fastest ramping Intel Xeon processor family in history,”
stated Lisa Spelman, vice president and general manager of Intel Xeon products and data center marketing.

Last week, Intel CFO and Interim CEO, Bob Swan, disclosed that its data-centric businesses grew 25 percent through June, and cloud revenue grew a whopping 43 percent in the first six months of the year. Responding to increasing demand for server and PC processors, Intel updated its CAPEX guidance for the year, saying it now plans to invest a record $15 billion in capital expenditures in 2018, up approximately $1 billion from the beginning of the year. Intel is investing $1 billion into its 14nm manufacturing sites in Oregon, Arizona, Ireland and Israel. Swan also cited progress with 10nm, stating that volume production will begin in 2019.

https://www.intel.com/content/www/us/en/benchmarks/server/xeon-scalable/1st-gen-xeon-world-record.html

Tuesday, September 25, 2018

Intel adds to portfolio of FPGA programmable acceleration cards

Intel is expanding its line of field programmable gate array (FPGA) acceleration cards with a new model based on its most powerful Stratix 10 SX FPGA.

The card leverages the Acceleration Stack for Intel Xeon CPU with FPGAs, providing data center developers a robust platform to deploy FPGA-based accelerated workloads. Hewlett Packard Enterprise* will be the first OEM to incorporate the Intel PAC with Stratix 10 SX FPGA along with the Intel Acceleration Stack for Intel Xeon Scalable processor with FPGAs into its servers.


Monday, September 24, 2018

ECOC 2018: Intel announces 100G silicon photonics transceivers for 5G

At ECOC 2018, Intel announced new 100G silicon photonics transceivers targetted at 5G wireless fronthaul applications. The new transceivers are designed to meet the harsh outdoor conditions of cellular towers with the capability to support optical transport to the nearest baseband unit or central office (up to 10 km). Commercial availability is expected in Q1 2019.

“Our hyperscale cloud customers are currently using Intel’s 100G silicon photonics transceivers to deliver high-performance data center infrastructure at scale. By extending this technology outside the data center and into 5G infrastructure at the edge of the network, we can provide the same benefits to communications service providers while supporting 5G fronthaul bandwidth needs,” stated Dr. Hong Hou, vice president and general manager of Intel’s Silicon Photonics Product Division.

Intel's first 100G silicon photonics product was introduced in 2016. The company says its 100G data center products are now shipping at a run rate of more than a million units per year.

Intel projects the total market opportunity for its connectivity business, which includes silicon photonics, to grow from $4 billion today to an estimated $11 billion total addressable market by 2022.

From this year's Intel Data Center Innovation Summit in August


Monday, September 10, 2018

Intel acquires NetSpeed Systems for interconnect fabric expertise

Intel has acquired NetSpeed Systems, a start-up based in San Jose, California, for its system-on-chip (SoC) design tools and interconnect fabric intellectual property (IP). Financial terms were not disclosed.

Intel said NetSpeed’s highly configurable and synthesizable offerings will help it more quickly and cost-effectively design, develop and test new SoCs with an ever-increasing set of IP.

NetSpeed provides scalable, coherent, network-on-chip (NoC) IP to SoC designers. NetSpeed’s NoC tool automates SoC front-end design and generates programmable, synthesizable high-performance and efficient interconnect fabrics. The company was founded in 2011.

The NetSpeed team is joining Intel’s Silicon Engineering Group (SEG) led by Jim Keller. NetSpeed co-founder and CEO, Sundari Mitra, will continue to lead her team as an Intel vice president reporting to Keller.

“Intel is designing more products with more specialized features than ever before, which is incredibly exciting for Intel architects and for our customers. The challenge is synthesizing a broader set of IP blocks for optimal performance while reining in design time and cost. NetSpeed’s proven network-on-chip technology addresses this challenge, and we’re excited to now have their IP and expertise in-house,” stated Jim Keller, senior vice president and general manager of the Silicon Engineering Group at Intel.

Tuesday, September 4, 2018

Intel announces AI collaboration with Baidu Cloud

Baidu and Intel outlined new artificial intelligence (AI) collaborations showcasing applications ranging from financial services and shipping to video content detection.

Specifically, Baidu Cloud is leveraging Intel Xeon Scalable processors and the Intel Math Kernel Library-Deep Neural Network (Intel® MKL-DNN) as part of a new financial services solution for leading China banks; the Intel OpenVINO toolkit in new AI edge distribution and video solutions; and Intel Optane™ technology and Intel QLC NAND SSD technology for enhanced object storage.

“Intel is collaborating with Baidu Cloud to deliver end-to-end AI solutions. Adopting a new chip or optimizing a single framework is not enough to meet the demands of new AI workloads. What’s required is sysatems-level integration with software optimization, and Intel is enabling this through our expertise and extensive portfolio of AI technologies – all in the name of helping our customers achieve their AI goals,” stated Raejeanne Skillern, Intel vice president, Data Center Group, and general manager, Cloud Service Provider. Platform Group.

Saturday, September 1, 2018

Intel and Ericsson complete 5G-NR call over 39 GHz

Intel and Ericsson completed the first 5G-NR compliant live data call over the 39 GHz band using Intel’s RF mm-Wave chip with Ericsson Radio System commercial equipment, including the 5G NR radio AIR 5331, baseband and Intel 5G Mobile Trial Platform.

The 5G trial was completed in labs in Kista, Sweden, and Santa Clara, California.

“This live 5G demonstration on the 39 GHz band signifies how close 5G commercial services are to reality in North America. Using the Intel 5G Mobile Trial Platform configured with a 39 GHz RF chip/antenna, we successfully demonstrated a 3GPP-compliant data call performed connecting to an Ericsson commercial 5G g-NB base station, an important step in ensuring our commercial platforms are field ready for deployment in 2019,” stated Asha Keddy, vice president Next Generation and Standards at Intel.

“Completing this end-to-end data call on 39 GHz with Intel shows our commitment to realizing 5G in different spectrum bands,” said Fredrik Jejdling, executive vice president and head of Business Area Networks at Ericsson. “In July we did it on 3.5 GHz and now on 39 GHz, which will smoothen the path to 5G for our customers. Using commercial 5G radios for this multivendor interoperability milestone shows our progress towards making 5G a commercial reality.”

Tuesday, August 28, 2018

Intel brings 802.11ac and LTE to its latest mobile CPUs

New additions to the 8th Gen Intel Core processor family offer integrated Wi-Fi and LTE capabilities

The new U-series (formerly code-named Whiskey Lake) and Y-series (formerly code-named Amber Lake) are optimized for connectivity in thin, light laptops and 2 in 1s.

The U-series processors bring integrated Gigabit Wi-Fi (with 2x2 160MHz channels), while delivering up to 2-times better performance, compared with a 5-year-old PC, and double-digit gains in office productivity for everyday web browsing and light content creation over the previous generation.

The Y-series processors also deliver fast connectivity options, including fast Wi-Fi and LTE capabilities, while offering double-digit gains in performance compared with the previous generation, enabling fresh innovations in sleek and compact form factor designs with extended battery life.

Thursday, August 9, 2018

Intel packs 32TB into its ruler SSD for data centers

Intel announced a 32 terabyte "ruler" SSD for data centers.

Instead of the traditional, 2.5" or 3.5" rectangular box for disk drives, Intel's ruler is a long, thin box designed to slide into a 1" server chassis, plugging in via a PCIe interface at the end of the ruler. The long, thin shape dissipates heats better than conventional designs.

The Intel SSD DC P4500 is built on Intel 3D NAND technology, which stacks memory cells atop each other 64 layers deep.

A prototype of the ruler SSD was first shown at last year's Flash Memory Summit.

Thursday, July 26, 2018

Intel reports record Q2 sales - strength in data centers

Intel reported record second quarter revenue of $17.0 billion, up 15 percent YoY and driven by strength across the business and customer demand for Intel platforms.

Intel's data-centric businesses grew 26 percent, approaching 50 percent of total revenue.

PC-centric revenue was up 6 percent on strength in the commercial and enthusiast segments.

“After five decades in tech, Intel is poised to deliver our third record year in a row. We are uniquely positioned to capitalize on the need to process, store and move data, which has never been more pervasive or more valuable,” said Bob Swan, Intel CFO and Interim CEO. “Intel is now competing for a $260 billion market opportunity, and our second quarter results show that we’re winning. As a result of the continued strength we are seeing across the business, we are raising our full year revenue and earnings outlook.”

  • Intel noted the workload optimization trend in the data center is also fueling demand for FPGAs. Intel's Programmable Solutions Group (PSG) revenue grew 18 percent.
  • Intel's memory (NSG), Internet of Things Group (IOTG) and Mobileye businesses each achieved record quarterly revenue. 
  • Mobileye revenue grew 37 percent year-over-year as the adoption of advanced driver-assistance systems (ADAS) increases.


https://www.intc.com/investor-relations/default.aspx

Tuesday, July 24, 2018

Intel and SiTime collaborate on MEMS timing for 5G

SiTime, which specializes in MEMS timing solutions, and Intel agreed to collaborate on integrating timing solutions for Intel’s 5G multi-mode radio modems, with additional applicability to Intel LTE, millimeter-wave wireless, Wi-Fi, Bluetooth, and GNSS solutions.

SiTime said its MEMS timing technology helps meet the high-performance requirements of emerging 5G radio modem platforms, especially in the presence of stressors such as vibration, high temperature, and rapid thermal transients. Such stressors can disrupt the timing signal and result in network reliability issues, lower data throughput, and even connectivity drops.

“Our collaboration with SiTime on MEMS-based silicon timing solutions will help our customers build leading 5G platforms to best take advantage of the increased performance and capacity that the 5G NR standard brings,” said Dr. Cormac Conroy, corporate vice president and general manager of the Communication and Devices Group at Intel Corporation. “Intel’s modem technology and our collaboration with SiTime is helping to enable new mobile and consumer experiences, and enterprise and industrial use cases.”

“Intel is already building 5G’s future and has the scale to meet 5G’s scope,” said Rajesh Vashist, CEO at SiTime. “Our collaboration enables SiTime to align our MEMS timing solutions roadmap with Intel’s 5G platforms. Intel’s expertise in 5G modems, with SiTime’s game-changing timing technology, is a potent partnership for future growth and one that enables successful deployment of 5G. As SiTime continues to lead the world in MEMS timing, the opportunities between our companies are growing and this agreement sets us both on a path for continued success.”

Wednesday, July 18, 2018

Intel celebrates its 50th birthday

Intel marked the 50th anniversary of its founding on July 18, 1968 by Robert Noyce and Gordon Moore.

A ceremony in New York City and Santa Clara, California was presided over by Bob Swan, Intel’s chief financial officer and interim chief executive officer. Instead of ringing the Nasdaq opening bell, Intel’s well-known five-note jingle was played accompanied by the Intel bong.

“We’re only just beginning to explore the impact that technologies like autonomous driving, artificial intelligence and quantum computing can have. And over the next several decades, we’ll create computing platforms that make the world a better place — from safer and smarter models of mobility to the eradication of disease,” stated Bob Swan, Intel CFO and interim CEO.

Intel also set a new record for most synchronized drones flying in formation -- 500.


Tuesday, July 17, 2018

REFLEX launches 800G acceleration card based on Intel FPGA

Paris-based Reflex CES introduced a 800 GbE accelerator card powered by Intel's S GX FPGA. The board comes in different variants where clients can choose from different memory or FPGA densities.

This board features the largest Stratix 10 GX device with 2800 KLE and is designed for processing intensive and various data a Stratixalgorithms thanks to its unique mix of memory capabilities of DDR4 and QDR2+ modules. REFLEX CES has adopted the disruptive QSFP-DD technology for the optical interfaces, delivering up to 800GbE in total. This is combined with a huge storage capability using 3 SlimSAS interfaces at the rear of the board. The hardware is delivered with a custom passive heat-sink.

http://reflexces.com


Monday, July 16, 2018

Ericsson, Telstra and Intel complete first 5G data call over 3.5GHz

Ericsson, Telstra and Intel completed the first end-to-end 5G non-standalone (NSA) 3GPP data call on a commercial mobile network at Telstra’s 5G Innovation Centre on the Gold Coast Australia in a multivendor setup.

The 5G data call was made over Telstra’s 5G NSA enabled commercial network using the following components:

  • Ericsson’s base station comprising Baseband 6630, AIR 6488 and 4G / 5G system software
  • Telstra’s licenced 5G Band 42 (3.5 GHz) and 4G Band 1 spectrum (2100 MHz)
  • A Telstra retail SIM
  • Network connection to an Ericsson virtualized 5G packet core (vMME and vEPG) running on Ericsson’s NFVi - the 5G slice was connected into the existing Telstra mobile network, which supports other functions such as backhaul, user authentication, billing and provisioning
  • Intel 5G Mobile Trial Platform for the 5G NR UE, running an early 3GPP Rel15 Intel 4G module and a 5G NSA implementation

"Demonstrating this 5G data call end-to-end using my own personal SIM card on Telstra’s mobile network is the closest any provider has come to making a ’true’ 5G call in the real world-environment, and marks another 5G first for Telstra. We continue to work with global technology companies Ericsson and Intel as well as global standards bodies to advance the deployment of commercial 5G capability in Australia,” stated Telstra’s Group Managing Director Networks Mike Wright.

Thursday, July 12, 2018

Intel to acquire eASIC for programmable logic

Intel agreed to acquire eASIC, a privately-held developer of field programmable gate arrays (FPGAs). Financial terms were not disclosed.

eASIC, which was founded in 1999 and is based in Santa Clara, California, helps customers to develop custom silicon with low up-front costs. The company says it can deliver tested prototypes in as little as 5 weeks from tape out.  The eASIC Platform replaces SRAM based routing with a scheme that utilizes a single via, significant die size reduction can be achieved compared to comparable density FPGAs.

eASIC's fifth generation Nextreme-3S, which is built on a 28nm CMOS process, can be used for logic, DSP or memory intensive designs and provides greater than 1 terabit of bandwidth using a combination of 28 Gbps and 16 Gbps high speed transceivers.

Following the acquisition, the eASIC team will join Intel’s Programmable Solutions Group.

https://www.easic.com/
https://newsroom.intel.com/editorials/mcnamara-psg-expands-portfolio/

Wednesday, July 4, 2018

Baidu integrates Intel's Mobileye into its autonomous vehicle project

Baidu will integrate Mobileye’s Responsibility Sensitive Safety (RSS) model in its open source Project Apollo and in its commercial Apollo Pilot programs. Baidu will also adopt Mobileye’s Surround Computer Vision Kit.

RSS is an open and transparent formal model that provides safety assurance of AV decision-making. RSS does this by formalizing common sense human-centered concepts of what it means to drive safely. Examples: always maintain a safe following distance and right-of-way is given but not taken.

The Mobileye Surround View Camera kit includes 12 cameras positioned around the vehicle plus Mobileye's computer vision (CV) hardware and software, which leverages the cameras combined view into a unified and comprehensive CV solution for autonomous cars.

“Our team recognizes the value and critical role that Mobileye’s RSS model plays in safely deploying autonomous driving. Project Apollo will integrate RSS to successfully enable safe driving today, and drive further autonomous research on China’s roadways,” stated Weihao Gu, general manager of Baidu’s Intelligent Driving Unit.

https://www.mobileye.com

Thursday, June 21, 2018

Krzanich resigns as Intel CEO due to inappropriate relationship

Brian Krzanich resigned as Intel's CEO and as a member of its board of directors because of a past consensual relationship with an Intel employee. Intel said it was recently informed of the relationship and that an investigation by internal and external counsel confirmed a violation of Intel’s non-fraternization policy.

Intel's board named Chief Financial Officer Robert Swan as interim CEO, effective immediately.

Intel was recently informed that Mr. Krzanich had a past consensual relationship with an Intel employee. An ongoing investigation by internal and external counsel has confirmed a violation of Intel’s non-fraternization policy, which applies to all managers. Given the expectation that all employees will respect Intel’s values and adhere to the company’s code of conduct, the board has accepted Mr. Krzanich’s resignation.

Intel also noted that it expects to deliver a record second quarter, with revenues of approximately $16.9 billion and non-GAAP EPS of approximately $0.99. Full second-quarter results and an updated outlook for the full year on the second-quarter earnings call on July 26.

  • Brian Krzanich was named CEO of Intel in May 2013. He served previously as Intel's chief operating officer. Krzanich joined Intel in 1982.

Tuesday, June 12, 2018

Intel outlines 5G reference design

Intel outline a new 5G infrastructure reference design developed in collaboration with partners, including Windriver, Radisys, Mavenir, and Amdocs. The design serves as a blueprint for communications service providers (CoSPs) seeking to deploy a software-defined, cloud-enabled, agile 5G-ready network.



The set of pre-integrated solutions includes:

  • End-to-end virtualized radio access network (vRAN) stack based on the Intel FlexRAN reference architecture
  • Wind River Titanium Cloud software
  • Radisys Layer 2 and 3 software
  • Mavenir virtualized evolved packet core (vEPC)
  • Amdocs network functions virtualization (NFV) technology powered by the Open Network Automation Platform (ONAP), with real-time orchestration of the Intel FlexRAN-based vNFs and full visualization of the end-to-end network

"This virtualized, cloud-ready reference design offers the communications industry a path to 5G, allowing CoSPs to speed deployment of new services and jump-start their development of edge computing and services. It reduces the time to market thanks to pre-integrated components for interoperability and proven technology from Intel," stated Caroline Chan, vice president and general manager of the Communications Infrastructure Division in Intel’s Data Center Group.

https://intel.ly/2Jz1Szp

Advantech launches Intel Select Solutions for NFVI

Advantech unveiled two systems that are verified as Intel Select Solutions for NFVI, enabling developers to gain faster access to advanced configurations that speed the rollout of highly-optimized NFV solutions.

The Advantech FWA-6170 workload-optimized network appliance and the SKY-8201 carrier-grade server are both based on integrated high-performance Intel Xeon Platinum and Gold processors. The configuration complies with specific network, storage, and integrated platform acceleration products from Intel to maximize virtual machine density. The high-performance CPUs, balanced I/O, and onboard acceleration with Intel QuickAssist Technology combined with optimizations through DPDK allow for the achievement of exceptional throughput and latency performance. These technologies improve data and control plane throughput, latency, and jitter performance, and allow virtual network functions (VNFs) to meet their performance requirements.

“Next generation central offices, telecom cloud and edge compute will require a significant boost in performance, network throughput and agility to maximize the opportunities created by 5G at sustainable costs.” said Ben Shen, Director of NFV Infrastructure Division, Advantech Networks & Communications Group.  “Intel Select Solutions for NFVI help close the gap and speed the transformation needed to support the next wave of applications where lower latency, additional bandwidth and increased storage capacities will be essential.”

“Advantech’s systems have been optimized to streamline deployment of new NFV infrastructure for CommSPs.” said Sandy Chen, Director of Enterprise Networking, Advantech Networks & Communications Group. “They both meet, and in some cases exceed Intel Select Solutions for NFVI performance thresholds while providing the flexibility to scale up compute performance, massively scale out network connectivity and experience a throughput boost from Intel® QuickAssist Technology acceleration to fit many NFV workloads.”

http://www.advantech.com/resources/case-study/intel%C2%AE-select-solution-for-nfvi-with-advantech-servers--appliances

See also