Wednesday, December 6, 2017

VeloCloud offers Seamless Addition of SD-WAN to AWS

VeloCloud Networks' Cloud-Delivered SD-WAN is enhancing the ability for enterprises to connect to Amazon Web Services (AWS).

Specifically, VeloCloud is leveraging AWS to offer a range of flexible deployment options for customers, including topology designs that require minimal changes to their existing networks. Enterprises now have the flexibility of including Amazon Virtual Private Cloud (Amazon VPC) as a part of VPN, either through globally distributed VeloCloud hosted Gateways and existing VPN hubs on AWS, or by deploying Virtual VeloCloud Edges on AWS. These solutions eliminate tunnel complexity and deliver security for both Internet only and Hybrid sites. Additionally, Service Providers or partners can host multi-tenant VeloCloud Partner Gateways on AWS for secure and reliable access to their hosted applications.

“VeloCloud SD-WAN has, from the beginning, been characterized by powerful optimization, performance and security capabilities combined with unmatched flexibility and simplicity for implementation and management of enterprise WAN,” said Steve Woo, VP of Products and Co-Founder of VeloCloud Networks. “The increasing integration of VeloCloud SD-WAN with AWS together with the uniquely flexible deployment options further differentiates our solution in the market.”

VMware to acquire VeloCloud for SD-WAN

VMware agreed to acquire VeloCloud Networks, a start-up offering SD-WAN technology for enterprises and service providers. Financial terms were not disclosed.

VeloCloud, which is based in Mountain View, California, says its SD-WAN solution is distinguished by supporting data plane services in the cloud, in addition to on-premise deployments; enabling policy-based access to cloud and data center applications. VeloCloud SD-WAN includes: a choice of public, private or hybrid cloud network for enterprise-grade connection to cloud and enterprise applications; branch office enterprise appliances and optional data center appliances; software-defined control and automation; and virtual services delivery. The solution aggregates multiple access lines (cable modem, DSL, LTE) into a single secure connection that is defined and controlled in the cloud.

VeloCloud was founded in 2013. The company is headed by Sanjay Uppal, who previously ran OnMobile Global.  He also spent time at Citrix through the acquisition he negotiated with Caymas where he was President and CEO. At Citrix, he defined the product strategy and go to market for the Access Management, Delivery Controller and WAN acceleration product lines.  VeloCloud co-founders also include Ajit Mayya (previously Sr. Director of Engineering in the Cloud and Infrastructure Management division of VMware) and Steve Woo (previously head of cloud strategy at Aerohive Networks).

VMware said the VeloCloud acquisition will enable it to build on the success of its NSX network virtualization platform to address end-to-end automation, application continuity, branch transformation and security from data center to cloud to edge.

GBI - Transforming Subsea Systems with SDN



GBI, which stands for Gulf Bridge International, is well-known for its subsea cable system extending from the Arabian Gulf to the United Kingdom to the west and Singapore to the east. In this video, Rick Hillson, VP of Next Gen Architecture for GBI, talks about transforming this system with #SDN and #NFV.

See video: https://youtu.be/O09truKmCkU




Qualcomm unveils Snapdragon 845 Mobile Platform

Qualcomm introduced its latest generation Snapdragon 845 Mobile Platform, promising the performance for eXtended reality (XR), on-device artificial intelligence (AI), lightning-fast connectivity, and featuring a new secure processing unit (SPU) for protecting mobile devices.

The Snapdragon 845 Mobile Platform includes an integrated Qualcomm Spectra 280 image signal processor (ISP) and Qualcomm Adreno 630 visual processing subsystem for cinematic video capture by flagship mobile devices. It is designed to deliver innovations for new XR experiences that span virtual, augmented and mixed reality. Snapdragon 845 is the first mobile platform to enable room-scale 6 degrees of freedom (6DoF) with simultaneous localization and mapping (SLAM)—for features such as wall-collision detection. Additionally, Snapdragon 845 introduces “Adreno foveation,” which substantially reduces power consumption, improves visual quality and boosts XR application performance, as compared to the previous generation.

“As leaders in mobile technology, we will transform the mobile experience with comprehensive advancements in visual processing, AI, security and connectivity,” said Alex Katouzian, senior vice president and general manager, mobile, Qualcomm Technologies, Inc. “The Snapdragon 845 Mobile Platform is the next horizon of innovation and is going to transform the way people use their mobile devices to make their lives better.”

The Snapdragon 845 Mobile Platform is currently sampling.  Key specs:

Qualcomm Spectra 280 ISP

-Ultra HD premium capture

-Qualcomm Spectra Module Program, featuring Active Depth Sensing
-MCTF video capture

-Multi-frame noise reduction

-High-performance capture up to 16MP @60FPS

-Slow motion video capture (720p @480 fps)

-ImMotion computational photography

Adreno 630 Visual Processing Subsystem

-30% improved graphics/video rendering and power reduction compared to previous generation

-Room-scale 6 DoF with SLAM

-Adreno foveation, featuring tile rendering, eye tracking, multiView rendering, fine grain preemption
-2K x 2K @ 120Hz, for 2.5x faster display throughput

-Improved 6DoF with hand-tracking and controller support

Qualcomm® Hexagon™ 685 DSP

-3rd Generation Hexagon Vector DSP (HVX) for AI and imaging

-3rd Generation Qualcomm All-Ways AwareTM Sensor Hub

- Hexagon scalar DSP for audio

Snapdragon X20 LTE Modem

- Support for 1.2 Gbps Gigabit LTE Category 18

- License Assisted Access (LAA)

- Citizens Broadband Radio Service (CBRS) shared radio spectrum

- Dual SIM-Dual VoLTE (DSDV)

Connectivity

Multigigabit 11ad Wi-Fi with diversity module
Integrated 2x2 11ac Wi-Fi with Dual Band Simultaneous (DBS) support
11k/r/v: Carrier Wi-Fi enhanced mobility, fast acquisition and congestion mitigation
Bluetooth 5 with proprietary enhancements for ultra-low power wireless ear bud support and direct audio broadcast to multiple devices
Secure Processing Unit

- Biometric authentication (fingerprint, iris, voice, face)

- User and app data protection

- Integrated use-cases such as integrated SIM, Payments, and more

Qualcomm Aqstic Audio

Qualcomm Aqstic audio codec(WCD934x):
Playback:

Dynamic range: 130dB, THD+N: -109dB
Native DSD support (DSD64/DSD128), PCM up to 384kHz/32bit
Low power voice activation: 0.65mA
Record:

Dynamic range: 109dB, THD+N: -103dB
Sampling: Up to 192kHz/24bit
Qualcomm® Quick Charge™ 4+

Kryo 385 CPU

-Four performance cores up to 2.8GHz (25 percent performance uplift compared to previous generation)

- Four efficiency cores up to 1.8GHz

-2MB shared L3 cache (new)

-3MB system cache (new)

10-nanometer (nm) LPP FinFET process technology

Digital Realty brings on more wind power

Digital Realty, which operates 182 data centers throughout North America, Europe, Asia and Australia, announced two new long-term agreements to source approximately 324,000 additional megawatt-hours of renewable wind and solar power annually for the company’s Chicago and Ashburn data centers.

In Chicago, Digital Realty has signed a contract with Leeward Renewable Energy for an anticipated 276,000 megawatt-hours of renewable wind power annually.

In Virginia, Digital Realty has signed SunEnergy to supply 48,000 megawatt-hours of renewable solar power annually for its Ashburn data centers. Both projects are expected to come online in next year.

With these resources, Digital Realty will have contracted for approximately 721,000 megawatt-hours of renewable generation annually through long-term contracts, avoiding approximately 515,000 metric tons of carbon dioxide per year. The company says it currently procures approximately 400,000 megawatt-hours of wind power annually, which offsets 100% of its U.S. colocation and interconnection energy usage, reducing the company's carbon footprint by approximately 275,000 metric tons per year. 



Radisys enters partnership with NS Solutions of Japan

Radisys is partnering with NS Solutions Corporation, an information technology solution provider in Japan, to deliver SDN, NFV and security solutions to leading communications service providers in Asia.

The companies will jointly develop solutions based on Radisys’ FlowEngine that will allow CSPs to easily introduce new services with greater speed and agility, provide holistic management, and increase granular security to combat cyber threats, all while realizing a huge reduction of CapEx and OpEx.

“We’re pleased to partner with Radisys to deliver innovative SDN solutions to our CSP customers and enhance our ability to support CSP network requirements in Japan,” said Masayuki Iida, Director, Systems Engineering Department-I Telecom Solutions Division, NS Solutions. “Radisys’ industry-leading FlowEngine TDE-2000 platform will enable us to help our customers introduce disruptive applications rapidly with new SDN architectures.”

Radisys’ FlowEngine TDE-2000 intelligent traffic distribution platform delivers Service Function Chaining and Load Balancing capabilities via a unique SDN spine and leaf architecture. The architecture collapses multiple appliances, previously needed to deploy these capabilities, into a single compact 1RU form factor with integrated management. It can be controlled by a variety of SDN controllers, including ODL and ONOS.

6WIND offer replacement for Brocade Vyatta Virtual Routers

6WIND, the Paris-based developer of high-performance packet processing software and software appliances for Commercial-off-the-Shelf (COTS) servers, has extended its Brocade vRouter replacement program through the first half of 2018.

The 6WIND Turbo Router, which is a high-performance software router for bare metal and virtual machine deployments, can be used as an alternative to Brocade’s Vyatta vRouter, which is now end-of-support. 6WIIND's offer now also applies to VyOS virtual routers. The 6WIND Turbo Router is based on DPDK (Data Plane Development Kit) for performance. It separates its full-featured data plane and control plane for use case flexibility. Management options include CLI, XML or Linux-based tools.

“We are pleased to extend our Brocade vRouter replacement campaign into 2018 while increasing our offer to include VyOS users,” said Eric Carm├Ęs, Founder and CEO of 6WIND. “Early results show that 6WIND immediately solves incumbent vRouter performance, feature and support challenges while also giving an alternative to hardware routers.”

Tuesday, December 5, 2017

Buidling Lifecycle Service Orchestration



The market for communication services is rapidly evolving and carriers must find better ways to interface their networks, says Mark Daley, Director of Digital Strategy for Epsilon. Better tools for interworking with customers are also needed. Automation will be key.

See video:  https://youtu.be/K-dOHpVFuVI


SD-WAN -- Threat or Opportunity?



Is SD-WAN a threat to carriers because users may leave their networks, or is it an opportunity?  It's both, says Prayson Pate, Chief Technology Officer for the Ensemble division at ADVA Optical Networking.

See video:  https://youtu.be/E9Ugdi2VpwE


NFVi Zero-touch PoC at #MEF17



Service providers are seeking to migrate their networks towards NFVi but it is a difficult task because they must transform manual test and assurance processes into automated functions that seamlessly integrate with test systems and the virtual network, says Ulrich Kohn, Director of Technical Marketing, ADVA Optical Networking. At #MEF17, ADVA and Spirent presented a Proof-of-Concept for Zero-Touch Service Activation and Closed-loop Issue Resolution for Virtualized Business Services.

See video:  https://youtu.be/DCwDAihptOc


MEF 3.0 - Dynamic, Multilayer Services



MEF 3.0 brings many new capabilities, including dynamic, orchestrated services across multilayer networks, says Raanan Tzemach, VP of Products, Marketing, and Professional Services, Telco Systems.

See video: https://youtu.be/hwd_3jGgax0


Barefoot's Deep Insight monitoring leverages P4 programmable switching silicon

Barefoot Networks, a start-up developing user-programmable switching chips, introduced a network monitoring system designed to provide visibility into every packet in a network.

The Barefoot Deep Insight software, which can run on commodity servers and in a network powered by switches based on Barefoot’s "Tofino" programmable switch chip, can interpret, analyze and pinpoint packet telemetry. Using stateful baselining of a network's performance, the company says its software automatically filters out irrelevant data, detecting only anomalies at any time scale and with nanosecond resolution. The Deep Insight software is able to track the sequence of switches the packet visited along its path, the set of rules it matched upon at every switch along the way, the time it spent buffered in every switch, to the nanosecond, and the packets, flows and application that the packet shared each queue with.

“Network monitoring is still stuck in the dark ages,” said Nick McKeown, co-founder and chief scientist at Barefoot Networks. “To get detailed visibility, some network owners are forced to deploy a second network that costs more than the first, just to watch what their network is doing. With Deep Insight, every switch in the network gathers data for you without any additional hardware, and without generating additional traffic. Deep Insight sits at the network edge, detecting and reporting network anomalies.” 

Barefoot is offering the network monitoring system on a pay-as-you-grow model, where customers pay only for the volume of telemetry they need.

Barefoot said its Deep Insight system could be especially useful in enterprise data centers, where many-to-one traffic patterns associated with applications such as Hadoop and HDFS can result in congestion, queue build-up and increases end-to-end latency. The Tofino switching silicon can detect the queue build-up and take a snapshot of every packet header during the congestion event. The Deep Insight software could then be used "to visualize the full dynamic of a congestion event, down to each individual packet, exposing the aggressors and the victims flows."

Barefoot is also highlighting the P4 programmability of its Tofino chip. This provides the flexibility to design for specific use cases without writing data plane code or modifying the silicon.


Alibaba, AT&T, Baidu, Tencent adopt Barefoot forwarding plane


Barefoot Networks, a provider of advanced, high speed switching technology, announced significant market momentum driven by growing demand for its programmable forwarding plane technology.Barefoot's 6.5 Tbit/s Tofino switch, which is claimed to be the fastest and P4-programmable switch chip, has been sampling to customers since the fourth quarter of 2016. The company noted that its technology is being adopted by large enterprises and telecommunications...


Ekinops debuts flexible line rate modules

Ekinops based in Lannion, France, a global supplier of next-generation optical networking equipment, introduced two new flexible rate line modules for its optical transport platform in metro, regional or long-haul deployments.

The two new modules – the PM 200FRS02 and PM 200FRS02-SF – employ dual QSFP28 client ports with software-selectable line side modulation that can be provisioned as either DP-QPSK or 16QAM to create 100G or 200G transport links. The new generation modules occupy only one-third the space of previous equipment, occupying only a single slot in an Ekinops 360 chassis, for three times the capacity per shelf. This makes it possible to fit up to 1.2 terabits per second of capacity in only two rack units. In addition, the PM 200FRS02-SF provides single fiber operation, giving service providers the option of cutting fiber costs in half.

Ekinops is also adding to the flexibility of the modules by introducing the PM 100G-AGG companion card for multiplexing up to ten 10G multiprotocol client services into a G.709 standard OTU4 that connects to one client port on the PM 200FRS02 or PM 200FRS02-SF.

Ekinops said its new modules will help service providers to reduce their capital and operational costs, improving the business case for deploying new capacity.

Aire Networks, which is Spain's fourth largest wholesale operator, is now using the Ekinops modules in its 27,000-kilometer fiber network that covers 90 percent of the country. The single fiber capability was key for Aire Networks, which was looking for a solution supporting 200G transmission in single fiber mode.

“We have been able to reduce the form factor in these new modules by a factor of three while reducing power requirements by a factor of two. That delivers an order of magnitude improvement in service density and network cost, key factors for Aire Networks and for other Ekinops customers when it comes to profitability,” said Mark Burton, EMEA Vice President of Sales at Ekinops. “This demonstrates Ekinops’ continued commitment to providing our customers the most efficient and flexible optical transport solutions.”


Japan Internet Exchange deploys Coriant Groove G30

Japan Internet Exchange Co. has deployed the Coriant Groove G30 Network Disaggregation Platform to scale network capacity in its Tokyo and Osaka metropolitan area networks and support the cost-efficient delivery of high-performance interconnect services, including 10G, 40G, and 100G. The Tokyo and Osaka network deployments include programmable 200G coherent optical transmission between multiple data center sites.

The JPIX network currently serves over 160 customers, including Tier 1 service providers, ISPs, content providers, Content Delivery Networks (CDNs), cloud providers, cable operators, and digital media companies.

The Coriant Groove G30 platform is designed to enable the provision of programmable, high-speed secure bandwidth for mobile, video and cloud applications. The stackable solution supports 3.2 Tbit/s of throughput in a compact and pluggable 1 RU form factor and enables service providers and cloud and data centre operators to build scalable and secure transmission and optical solutions with functionality enabled via open APIs. It can be equipped as a muxponder terminal solution and as an Open Line System (OLS) optical layer solution.

Coriant’s strategic local partner is UNIADEX Ltd.

“JPIX is playing a vital role as the core of Japan’s Internet with an advanced network infrastructure optimized for the stringent demands of an evolving application landscape that includes IoT and 5G,” said Petri Markkanen, Managing Director, Asia Pacific, Coriant. “We are pleased to be working closely with this industry-leading Asian IX provider and are committed to helping JPIX further enhance connectivity services and network efficiencies for their end-user customers.”

T-Mobile and Ericsson push Licensed Assisted Access to 1.1 Gbps

In a demo conducted at  T-Mobile's lab in Bellevue, Washington, T-Mobile and Ericsson achieved speeds of 1.1 Gbps using 12-layer Licensed Assisted Access (LAA) technology.

The set-up sued Ericsson's Radio System and the TM500 network test equipment from Cobham Wireless. The test combined several LTE technologies including 256 QAM, 4x4 MIMO, and LAA by aggregating two licensed carriers and three unlicensed carriers.

The Ericsson Radio 2205 delivers LTE on the 5GHz unlicensed band in outdoor micro cell environments. Using LAA, the unlicensed carriers can be aggregated with licensed carriers on the micro cells or on nearby macro cells.

The companies claim this to be the first demo in the world to hit speeds beyond the 1 Gbps threshold on unlicensed spectrum.

“Breaking the 1 Gbps-mark means that commercial gigabit speeds are not far from reality for many broadband users, with our LAA and MIMO technologies as key enablers. It is also an example of how innovatively we work with partners to push the boundaries of technology and achieve new milestones,” said Fredrik Jejdling, Executive Vice President and Head of Networks at Ericsson.

Neville Ray, Chief Technology Officer for T-Mobile, says: “T-Mobile has built the nation’s fastest LTE network by innovating and bringing new technologies to market for our customers. This LAA technology builds upon our deployments of 4x4 MIMO and 256 QAM and will give customers even greater access to near gigabit speeds in 2018.”

Qualcomm targets Windows 10 on Snapdragon

Qualcomm and Microsoft confirmed progress made over the last several months to deliver Windows 10 on Snapdragon. The idea is to use mobile phone processors to run light notebooks.

The first Windows on Snapdragon device will be a 2-in-1 convertible ASUS NovaGo that is expected to hit the market early next year.

A second device will be a detachable HP ENVY x2 Windows on Snapdragon Mobile PC.

Both will be fanless design and will offer support for Gigabit LTE connectivity.

Later this week, Qualcomm is expected to preview its next-gen Snapdragon 845 Mobile Platform.

CenturyLink Wins NORAD Contract

CenturyLink announced a contract to provide communications services to Peterson Air Force Base in Colorado Springs, Colorado. The contract includes support for the NORAD (North American Aerospace Defense Command) Tracks Santa program, including enabling the program’s phone hotline. The contract, which also includes Ethernet circuits and private line services, is valued at approximately $275,000 the first year, with four one-year options, for a total contract value of $1.5 million. 

“CenturyLink is honored to provide Peterson AFB with communications services that help NORAD track all flying objects that enter North American air space every day, including tracking Santa Claus on Christmas Eve,” said David Young, CenturyLink regional vice president, strategic government.

FiberLight appoints Don MacNeil as CEO, formerly XO

FiberLight, which owns over 1,700,000 miles of robust fiber networks in over 44 U.S. cities, appointed Don MacNeil as its new CEO, replacing Jim Lynch who will now assume the role of Executive Chairman.

MacNeil joined FiberLight as Chief Operating Officer (COO) in September. He previously served as Chief Technology Officer (CTO) for EdgeConneX, an innovative data center solutions provider, which built a national portfolio of 29 edge data centers throughout the U.S. and Europe. Additionally, Don has held a variety of leadership roles with operations, engineering, sales and marketing teams, and culminated his 14-year tenure with XO Communications as COO.

Nutanix appoints Ben Gibson as CMO

Nutanix has appointed Ben Gibson as Chief Marketing Officer. Most recently, he was Chief Marketing Officer at F5 Networks, and before that, he served as Chief Marketing Officer at Veritas, where he led the company’s rebranding efforts following a spin-off from Symantec. Prior to Veritas, Ben spent five years as Chief Marketing Officer at Aruba Networks.