蜜桃成熟时之10家SDN初创公司一览

2012/09/23 by Leave a Comment

原作者:Chad Berndtson, CRN 编译: Interlaken

摘要:火爆的SDN市场在Nicira被VMWare收购后被彻底点燃,谁会是下一个幸运儿?谁会找到新的靠山?本文按照字母顺序列出10家可能是下一个被收购目标的SDN初创公司,包括ADARA Networks, Big Switch Networks, ConteXtream, Embrane, Insiemi, LineRate Systems, Midokura, Plexxi, PlumGrid,  vArmour Networks等公司。

ADARA Networks

CEO: Eric Johnson

为什么特别是方案供应商在关注ADARA Networks?因为作为冉冉升起的SDN玩家,ADARA是唯一一家制定清晰渠道政策的公司,他们不仅与方案供应商合作甚至与Tech Data公司结成了二次分销关系,Tech Data在其Solutions Center产品中集成了ADARA的Full Stach Engine和SDN方案。Full Stack Engine作为全方位的服务平台包括了OSI模型网络的整个七层,将基础设施架构中的各种计算和网络资源、应用、内容、数据以及客户系统等虚拟化,并综合了四个ADARA产品为一个集成系统,比如Gemini系列多播路由器和Mercury系列7层路由器。虽然公司目前计划保持独立,但是ADARA CEO在8月份的一次访问中告诉CRN一切都在进行中,“我们或许会并入一家大企业”

Big Switch Networks

CEO: Guido Appenzeller

除了Nicira,Big Switch Networks(BSN)应该是最知名也是市场认知最高的SDN初创公司,目前已经表示支持OpenFlow协议。由于很对就会推出其控制软件Floodlight的商用版,BSN已经吸引了一些大公司高管的目光。大部分的业界评论都认为BSN终将会在某大鳄公司谋得一席之地,并且目前预计IBM将会是潜在的收购者,因为IBM将重心放在数据中心的整合,与BSN也有联合开发项目比如IBM的Open Data Center Interoperable Network (ODIN)

ConteXtream

CEO: Yaron Simler

ConteXtream总部位于加州的Palo Alto,将自身定位于“为云、管理托管和宽带服务供应商提供云规模的网络虚拟化”。2011年11月,这家已经两岁的公司为云和管理托管服务商推出了ConteXtream Grid,一个分布式4-7层虚拟交换机。将其叠加部署在现有网络架构上,可以将无限多的网络终端连接至该公司描述的“扁平网络”中,方便管理并且减轻网络管理员的压力。

Embrane

CEO: Dante Malagrino

Embrane公司以其超越SDN潮流的眼光为荣,主席兼CEO Dante认为目前的SDN非常狭隘的集中于网络的2/3层。其分布式软件平台Heleos推出近一年来已经赢得了良好赞誉,目的是将可编程网络设计带入4-7层比如负载均衡,防火墙,VPN以及WAN优化。难道这不是大型数据中心玩家的完美补充吗?

Insiemi

CEO: John Chambers (via Cisco)

好的,很明显的选择,Insiemi就是Cisco的“Spin-in”,内部创业团队。Cisco为其提供了$100 million的种子基金,而且具有$750 million收购公司的权利, 这意味着收购方已经敲定。但是这并不意味着与其他SDN初创公司相比Insiemi就不值得关注,考虑到很多消息来源表明Cisco曾尝试收购Nicira,那么Cisco对这个项目有信心吗?

LineRate Systems

CEO: Steve Georgis

2008年成立于Colorado的LineRate在今年四月的Open Networking Summit上横空出世,推出运行于虚拟网络上的软件。LineRate的特点在于它的软件可以运行于普通x86服务器平台上,这意味着客户理论上可以无需配置麻烦的物理网络和设备就建立部署网络服务。目前LineRate提供LineRate Proxy产品,实现从内容过滤到负载均衡在内的全代理4-7层网络服务。LineRate Proxy以及预计其他未来的产品都采用按容量付费(pay-for-capacity)的许可模式。它的早期客户包括hotobucket。

Midokura

CEO: Tatsuya Kato

SDN创新者不仅仅在北美的一个例证。Midokura作为一家日本公司获得了很多早期的关注。公司目前的策略似乎是专注于为基于OpenStack的环境提供2-7 层的分布式虚拟网络,其软件平台MidoNet可以无需改变或者调整物理网络而为基于软件的网络架构提供虚拟交换机、防火墙以及其他网络部件。通过一些投资者包括日本的风投Midokura公司已经获得$6 million资金。

Plexxi

CEO: David Husak

Plexxi是众多获得风投青睐拿到资金的SDN初创公司之一,目前确认在6月得到最新一轮$20.1 million投资,这使得其总投资额达到$50 million。Plexxi近期会发布更多的消息。在今年夏天公司为一些经过筛选的客户提供了Beta程序用来测试其描述为“集成的软硬件产品,可以使得数据中心运营商可以从应用和负载需求的角度来搭建管理网络”。Plexxi用来描述其方案的名词为“亲合性驱动的网络” (affinity-driven networking)

PlumGrid

CEO: Awais Nemat

SDN领域或者说网络虚拟化领域最新引起骚动的一家公司PlumGrid在今年8月从美国Venture Partners和Hummer Winblad Venture Partners获得$10.7 million资金,这是继2011年$2 million投资后的后续投入。工程团队和高管来自于思科、Marvell,Sun,VMware,Nicira以及其他一些公司,由于目前公司产品和服务还不得而知,所以PlumGrid不太谦虚的称其为“网络的未来”

vArmour Networks

最近虚拟化环境下的安全成为热门的市场,对那些能够解决SDN网络安全问题的初创公司来讲需求实在是很旺盛,Cisco和Juniper目前在VM安全方面的收购就是很好的示例。这也是我们对vArmour感兴趣的原因,这家公司由前NetScreen的一些老兵创立,包括在Juniper7年的高管Michael Shieh。vArmour的产品目前还知之甚少,但是它已经引起了一些注意,四月份的Open Networking Summit上vArmour与Big Switch联合演示了其技术。

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法国Karay推出256核并行芯片 目标定位图像处理

2012/09/18 by Leave a Comment

专为嵌入式应用开发 MPPA 多核处理器的无晶圆厂IC设计公司Kalray SA近日宣布,现可开始提供内含256颗处理器核心的 28nm MPPA-256晶片样品。

该处理器据称能以较其它处理器更低的功耗提供每秒高达5,000亿次的运算处理性能。该元件主要针对图像处理、信号处理、控制、通讯以及数据安全等嵌入式应用。

MPPA-256 晶片设计主要由Kalray与台湾创意电子(Global Unichip Corp.)携手合作,并由台积电进行制造。

Kalray宣布第一批投入量产的产品是针对图像应用的处理器。预计在2012年11月完成产品合格认证。

Kalray公司成立于2008年,是由法国投资基金、地方基金、私人投资者和法国公共部门机构OSEO共同资助;该公司CEO Joel Monnier曾任意法半导体(ST Microelectronics)研发副总裁。Kalray在2008年7月成立时已募得超过2,000万美元的创投资金。该公司并声称至今已累积45项专利组合。

Kalray处理器核心采用专有的 VLIW 架构与先进的低功耗设计技术,并整合高性能IEEE 754浮点单元。 MPPA-256 的256个处理器以16颗为一个单元组成16个丛集排列,通过晶片内的网络彼此通讯,如同网络上大型电脑集群一样。多个 MPPA 晶片可通过 Interlaken 总线在PCB板级实现互连,以提高处理器阵列的规模与性能。

除了 MPPA 处理器以外,Kalray并为客户提供了软件开发环境,称为 AccessCore 。Kaleay还提供 GNU C / C++ 开发工具与软件库,包括任务和数据平行基础。 AccessCore 开发环境提供一个基于C语言的编程模型,包括 Linux 支持的传统功能,以及更高层次的数据环境。标准 GCC 和 GDB 技术用于编译与除错。

Kalray在一份声明中说:「Kalray的技术持续与几个垂直市场的多家OEM夥伴以及第三方软件供应商共同开发,」Kalray公司CEO Joel Monnier在一份声明中表示。「我们的第一款处理器实现了每秒5,000亿次运算的全域处理性能,而其功耗也较竞争解决方案更低。」

LONDON – Kalray SA, the well-supported French launching a parallel processing chip and software, has 25 customers and is hopeful of winning more in Germany and Japan, according to CEO Joel Monnier.

Monnier told EE Times that the 28-nm MPPA-256 processor from Kalray (Orsay, France), with its 16 clusters of 16 VLIW processors on-chip, is well-suited to imaging applications such as graphics computation and image recognition and is also being used as a platform for video compression and transcoding.

High Efficiency Video Coding (HEVC) is a video standard, currently being developed by a joint team between MPEG and VCEG. The finalized HEVC standard is expected to bring 50 percent bitrate savings compared to equivalent H.264/AVC encodings. HEVC should be ready for ratification by ISO and ITU as H.265 by the end of January 2013.

For broadcast applications algorithms such advanced codings are typically done on FPGAs but Monnier said that MPPA-256 processor die size is smaller than leading FPGAs and more power efficient for such tasks. “We also have a very good position in augmented reality,” said Monnier, who prior to serving Kalray was corporate vice president at STMicroelectronics NV in charge of R&D from 1989 to 2004.

Kalray has just announced that it can supply samples of the 28-nm MPPA-256 processor and Monnier said that the chips would be in use by customers before the end of the year. “We have 25 customers developing applications based on Kalray. This is mainly in Europe because of close relationships in France. We have good prospects in Japan and we want to be in the United States in the first quarter of 2013.”

Other applications include signal processing of various types, including military tasks, data security support and scientific applications. Other applications such as EDA software acceleration are under discussion, Monnier said.

Monnier stressed that although Kalray is just starting out in a number of professional-class applications where chip volumes are not as large as in consumer applications its foundry supplier TSMC has been very supportive. “We are not a small volume chip company although it may take one, two, three years to become accepted in different markets,” Monnier said. “We started out two years ago with MPW [multiproject wafer] runs to do test circuits but this chip [MPPA-256] is based on a full mask set for Kalray.

Monnier said he did not regret leaving off a mainstream processor, such as an ARM core for housekeeping, off the chip or to ease integration with other computational units. “It’s not an issue for Kalray. Linux is running on the processor,” he said. He added that the software development support that makes MPPA-256 easy to use and program is an important part of the company’s offering. “We have a C-like language for dataflow applications and can run it intermixed with C/C++ routines. The chip also has ample I/O channels including multiple DDR, PCI and Interlaken interfaces.

But that could expose one problem. It may be hard for the MPPA-256 to achieve its theoretical maximum performance of 500-GOPS with the quoted typical 5-W power consumption. Monnier admitted that with all the I/O going there could be instantaneous demands that would push the device. “Everything going at full speed could be 30 to 40 watts,” he said.

Kalray has a roadmap that includes the MPPA-512 and MPPA-1024 chips with corresponding increases in the processing core count but he declined to forecast when, or in what process technology, they would arrive. Instead he emphasized derivatives of the MPPA-256. “There will be some derivatives of the basic product to make them more specific for different applications.

Kalray is also expecting to make sales of board-level and boxed products that can act as accelerators for connection to a desktop computer or server.

“Early next year we will offer a Kalray developer board with one MPPA-256 with an Intel motherboard as a development tool for customers. Another board will have multiple MPPA chips, a minimum of four, maybe six,” said Monnier. After nearly four years in development sales traction for the 50-person team will, no doubt, be welcome.

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