Better software engineer

         (2013, 12 Steps For How To Be A Better Software Engineer Or Software, 15 oct, 29 may 2014)

Advertisements

Computer science students

In recent years, cloud computing has become increasingly popular, with major corporations such as Google, Amazon and Microsoft making huge investments to provide software and hardware resources to business and home computer users over the internet.

However, cloud computing service providers maintain a great deal of secrecy over how their systems work beyond the software available to end-users, making it difficult for computer science researchers and students to develop practical understanding of cloud infrastructure.

Dr Dimitrios Pezaros, Dr Jeremy Singer, Dr Posco Tso and Dr David White of the University’s School of Computing Science developed the Raspberry Pi Cloud project to broaden access to cloud computing research and education.

“The introduction of the Raspberry Pi last year offered us for the first time the opportunity to affordably build a small, portable and energy-efficient network of computers which could act as a platform for cloud computing research and teaching,” Dr Singer said.

“For an initial investment of less than £4,000, we’ve been able to build a Linux-based system which allows researchers and students complete access to a working cloud computing infrastructure at a tiny fraction of the cost of its commercial equivalent. We’ve used 56 Raspberry Pis in this first project but the numbers involved could easily be scaled up or down as required.

“Although we’ve been offering lectures for students on cloud computing for several years now, the Raspberry Pi Cloud gives us a major advantage over other universities because we can now offer students hands-on experience with cloud computing hardware and software and give them a unique skillset they can take into the job market,” he said.

Launched last year, the credit card-sized Raspberry Pi requires just a keyboard and a monitor to run and was designed to provide young people with an affordable and flexible introduction to computing science. The Raspberry Pi Foundation, the charity which developed the hardware, has sold more than 1.2 million system boards to date.

“Before we built the Raspberry Pi Cloud, we relied on software models of how cloud data centres worked for our research and teaching. Software simulations can be valuable but they are not wholly successful at replicating the practical difficulties of running a data centre,” Dr David White said.

“What our Raspberry Pi system gives us now is a very clear correspondence between the hardware and the software, and a physical setup which is very similar to how racks of servers work in real data centres. We’ve been really inspired by having a practical model to experiment with,” he said.

“The ARM processors which are used in the Raspberry Pi are also becoming more common in cloud data centres because they require less energy to run than more traditional PC hardware, which gives our students another advantage for their future careers. (2013.”Lego helps computing science students build future carrers”, 29 may 2014)

 

Software Engineering

“Software engineering is one of the fastest growing fields in the world today,” says Ben Amaba, worldwide executive for IBM Complex Systems. “What we’re seeing across all other disciplines is that software is becoming an invisible thread tying all disciplines together. Software is now embedded in almost all devices, mechanical devices all talk with each other, and developing products using software is faster and poses fewer risks than physical prototyping.”

Why Software Engineering is Important

Software engineering was recently dubbed the best job of 2011 by career site Career Cast, and magazines like Forbes and Fortune have also extolled the virtues and importance of the field. Heck, even toy company Mattel recently introduced Computer Engineer Barbie to help inspire young girls into the profession.

So why are these employees so valuable? Look no further than the often-cited Standish Group “Chaos” reports, which most recently (2009) found that only 32% of software projects are, in their terms, “successful.” The Standish report found that 44% of software projects were “challenged,” usually involving cost over-runs and late delivery, and a full 24% of projects failed. Since companies often can’t afford these costly delays or failures, engineers who operate by a set of standard development principles, such as those defined in the Software Engineering Body of Knowledge (SWEBOK), can help keep costs down and products flowing out the door.

“Software engineers can also have higher innovation rates,” says Amaba, “because they aren’t tied to the physical world. Their only constraint is time. Other areas are more limited by materials and manpower.  (Platt J, “carrers focus software engineering”, 29 may 2014).