Google Compute Engine Leverages Third Party Support
RightScale, MapR, and Puppet Labs bring key features, a larger ecosystem to Google's new infrastructure-as-a-service.
Google I/O: 10 Awesome Visions
(click image for larger view and for slideshow)
Google's newly launched Compute Engine infrastructure-as-a-service (IaaS) has some limitations, but it's already attracting support from third parties who can address its areas of weakness. This speedy early development of a supportive ecosystem is a good sign for Google IaaS's prospects.
For example, Google's IaaS is designed to run KVM workloads, which works fine for the many startups and independent developers who have built their applications on Google App Engine and are not running them in any virtual machine. They can submit their job to Compute Engine, select a type of server, and let it provision a KVM virtual machine for them.
But many established businesses are already running virtualized applications and are ready to move a discrete workload, configured the way they want, to public IaaS. Amazon Web Services' EC2, for example, prefers tasks submitted in its Amazon Machine Image format, but accepts VMware virtual machines and converts them. Microsoft's Windows Azure is designed to run Hyper-V, but can accept both VMware and Citrix XenServer jobs.
For Google Compute Engine to do the same, it will need the help of third party RightScale, which provides a job configuration front end than can translate between the different virtual machine formats. RightScale has produced over 40,000 Linux and Windows server templates that can be browsed by a customer. After selecting one, it sets the operating system and application combination that can be submitted to a particular cloud service, including Amazon EC2 and, now, Google's Compute Engine.
Michael Crandell, CEO of RightScale, said his firm looked over the features of Google's pending IaaS and was impressed with its speed of booting up servers and its ability to establish encrypted, private-line communications between virtual machines. The virtual machines may be in different geographic locations, but the connections between them "appear as a local area network, from the system adminstrator's point of view," he said in an interview.
In addition, data written to storage by Compute Engine is also automatically encrypted, giving its operation an additional security feature that Crandell thinks will be attractive to future cloud users. So RightScale signed up to support its KVM infrastructure, and customers who might otherwise be turned off by the use of KVM may go through RightScale--for a fee--to have their workloads targeted to Compute Engine.
Likewise, performing analytics on big data is one of the cloud's attractions. Google, as the inventor of Big Table and MapReduce, should be able to attract big data users in the long run. But it helps that MapR, an implementer of analytics on open source Hadoop, has a system ready for use on Compute Engine.
MapR is a commercial implementation of the Apache Software Foundation's Hadoop. At Google I/O, a 1-TB sort, or TeraSort, job was completed in 80 seconds on a Compute Engine cluster of 1,256 nodes and 1,256 disks, at a cost of $16.
Although he didn't tie the project to MapR or Hadoop, Google senior VP Urs Holzle, one of the primary architects of Google's search data centers, appeared at Google I/O June 28 to illustrate how Compute Engine can be used for Hadoop-style parallel processing of a big data problem.
In this case, the big data problem was finding characteristics and attributes in what is known about cancer patients and associating those findings with specific genes or gene mutations that are known in the human genome. An algorithm used by the Institute for System Biology in Seattle sifts through the human genome, looking for associations between what is known about specific genes and the attributes of cancer patients.
InformationWeek Elite 100Our data shows these innovators using digital technology in two key areas: providing better products and cutting costs. Almost half of them expect to introduce a new IT-led product this year, and 46% are using technology to make business processes more efficient.
The UC Infrastructure TrapWorries about subpar networks tanking unified communications programs could be valid: Thirty-one percent of respondents have rolled capabilities out to less than 10% of users vs. 21% delivering UC to 76% or more. Is low uptake a result of strained infrastructures delivering poor performance?
InformationWeek Tech Digest August 03, 2015The networking industry agrees that software-defined networking is the way of the future. So where are all the deployments? We take a look at where SDN is being deployed and what's getting in the way of deployments.