Friday, January 6th, 2017

Time	Event
1:00p	Friday Funny: Cloud Gazing  — All those clouds could be in our data center, but we just couldn’t add 50MW in two weeks! Here’s the cartoon for this month’s Data Center Knowledge caption contest. And here’s how it works: Diane Alber, the Arizona artist who created Kip and Gary, creates a cartoon, and we challenge our readers to submit the funniest, most clever caption they think will be a fit. Then we ask our readers to vote for the best submission and the winner receives a signed print of the cartoon. Submit your caption for the cartoon above in the comments. Congratulations to Steve, whose caption won the Halloween edition of the contest. His caption was: “Free airside economizer cooling from underground caverns *seems* like a good idea on the whiteboard, but in reality, there are problems…” (Comment on this)
4:00p	How Serverless Computing Can Help Optimize Your Cloud Apps Brought to You by Talkin’ Cloud Serverless computing can make your cloud-based apps much more efficient. Wondering what serverless computing means, what the advantages and drawbacks are and how you can go serverless? Keep reading for a primer on serverless computing solutions. Before diving into the details, let’s get one thing straight: Serverless computing does not mean computing without servers. In a serverless computing environment, you still host your apps on servers. How Serverless Computing Works So what does serverless computing mean, then? In a sentence, serverless computing is a type of solution that allows you to run code on a cloud server without having to configure or maintain the server in any way. That’s different from traditional cloud computing. Normally, even if you host your apps on a virtual server based in the cloud, you still have to set up and manage that server. You have to install an operating system on it, monitor it, keep its software updated, and so on. Under the serverless model, none of that is necessary. All you have to do is upload code and execute it. Your computing experience is serverless in the sense that you don’t have to think about the servers that host your app (even though they still exist). Serverless Computing Benefits Serverless computing comes in handy when you have resource-hungry code that needs to be executed at fluctuating, unpredictable rates. Traditionally, the only way to ensure that you will always have the resources on hand to execute code like this would be to maintain a massive infrastructure. But doing so is very inefficient, because it requires you to set up and maintain a large number of servers that are only used at the moments when you happen to need them. Serverless computing solves that problem by allowing you to execute code on-demand on cloud-based servers that are maintained by someone else. All you have to do is upload the code you want to run, then tell your serverless computing service when to run it. Serverless Computing Use Case Example A good example of a situation in which serverless computing can pay major dividends is a Web application where users upload photos that need to be resized by the app. Image resizing is a resource-intensive operation, and there is no way to know when a user will choose to upload a photo. Therefore, in order to resize photos effectively, you need a way to run image-resizing code on a server that is powerful enough to execute it quickly. Serverless computing provides an excellent solution in this situation. It allows you to gain instant access to massive cloud-based computing resources for resizing images whenever you need those resources. And you only pay for the resources when you are actually using them. Limitations of Serverless Computing There are a few limitations to keep in mind when considering how serverless computing can help you: Currently, only a handful of cloud providers are offering serverless computing solutions. (See below for a list of the major platforms.) That means you may need to migrate to a new cloud host if you want to take advantage of serverless computing. There are no community-based standards for writing serverless computing code. Each cloud vendor has different requirements. As a result, there is a certain amount of vendor lock-in associated with serverless computing. Only certain programming languages are supported. The exact languages vary by vendor. If you want to take advantage of serverless computing, you’ll need to write your serverless software in a supported language. Serverless computing solutions do not yet offer many security or compliance enhancements. This does not mean that running serverless code is inherently insecure or will get you into trouble with auditors. But serverless code runs on shared servers over which you have very little control. That could be a challenge if you have very high security needs. Serverless Computing Services Who’s providing serverless computing solutions? AWS was the first major entrant to this niche. It launched Lambda Functions in 2014. Lambda remains a very popular serverless computing solution, especially because it supports most popular programming languages. It took other public cloud providers some time to catch up with Lambda, but they are now doing so. Azure offers Azure Functions. IBM’s solution for the Bluemix cloud is called OpenWhisk. Google Cloud’s answer to Lambda is Cloud Functions, which are currently in alpha. Serverless computing can help you make much more efficient use of the public cloud. It allows you to get access to all of the computing power you need, without paying for any extra. For now, serverless computing is still maturing. But expect it to become a bigger and bigger deal as more vendors add serverless solutions and as the choices become more sophisticated. This article first appeared here, on Talkin’ Cloud. (Comment on this)
7:25p	US Grid in ‘Imminent Danger’ From Cyber-Attack, Study Says (Bloomberg) — The U.S. Energy Department says the electricity system “faces imminent danger” from cyber-attacks, which are growing more frequent and sophisticated, but grid operators say they are already on top of the problem. In the department’s landmark Quadrennial Energy Review, it warned that a widespread power outage caused by a cyber-attack could undermine “critical defense infrastructure” as well as much of the economy and place at risk the health and safety of millions of citizens. The report comes amid increased concern over cybersecurity risks as U.S. intelligence agencies say Russian hacking was aimed at influencing the 2016 presidential election. “Cyber threats to the electricity system are increasing in sophistication, magnitude, and frequency,” it said in the 494-page report. “The current cybersecurity landscape is characterized by rapidly evolving threats and vulnerabilities, juxtaposed against the slower-moving deployment of defense measures.” The department detailed 76 recommendations to boost energy, including increasing the collection of data about online breaches from utilities. Separately, it called for extending tax credits to boost construction of new nuclear reactors. Overall, the report said, total investment requirements necessary for grid modernization range from $350 billion to $500 billion. The risks to the electric sector were highlighted within the past week as suspicious Internet traffic was found on a laptop computer at a Vermont electric utility. While the laptop wasn’t connected to the grid, the Burlington Electric Department alerted federal authorities of the risk. Modified or new grid reliability requirements and increased data collection on cyber-attacks will be needed to address the cyber risks, it said. While there haven’t been major attacks in the U.S., the department review noted that a 2015 attack on the Ukrainian grid caused widespread power outages. That “should be seen as an indicator of what is possible,” it said. The report also called for a new Energy Department assessment of cybersecurity for natural gas pipelines. Regional wholesale grid operators including PJM Interconnection LLC said they have implemented security measures, such as having redundant facilities, to counter cyber threats. “We are continually working to improve our security as cybersecurity threats evolve,” said Marcia Blomberg, spokeswoman for ISO New England Inc. in Holyoke, Massachusetts. “We monitor system conditions continuously, and we share information as needed with regulatory and industry bodies.” The Edison Electric Institute, a Washington-based utility trade group, will look at the report’s recommendation to “make certain they align with our shared goal of ensuring the energy grid can provide reliable, affordable, secure, and increasingly clean energy to the American people,” Scott Aaronson, executive director, security and business continuity for Edison Electric Institute, said in an e-mailed statement. The Quadrennial Energy Review is part two of a broad administration-wide review of the nation’s energy policies. The first report, released in 2015 focusing on energy infrastructure, recommended spending $15.2 billion over a decade to improve the grid, and called for $2 billion to upgrade the Strategic Petroleum Reserve. (Comment on this)

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