@article{2273,
  author = {Adrian Florea},
  title = {Teaching The Microprocessors Systems Focused on Societal Challenges: Designing of Performant Cache Replacement Algorithms as Green It Solution},
  journal = {Journal of Digital Information Management},
  year = {2017},
  volume = {15},
  number = {2},
  doi = {},
  url = {http://dline.info/fpaper/jdim/v15i2/jdimv15i2_1.pdf},
  abstract = {In the last decades, beside Education,
Information & Communication Technology was, and will
continue to be, the engine of evolution and development
of society. The main goal is to achieve a better world for
all of us, raising living standards using ubiquitous
computing systems of any type (desktop, laptop, server,
high performance computing data centers, smart phones
and other portable multimedia devices, embedded
systems, etc.). In order to keep this evolutionary trend
should be understood the technical challenges targeting
each component of the computer system, in particular
the microprocessor - as known as the "computer brain".
The formal learning of discipline entitled "Microprocessors
Systems" supposes that for addressing the technical
challenges of microprocessors it should be discussed,
analyzed and understood the current major societal
challenges, and mainly the requirement of cutting down
the energy consumption and of reducing our carbon
footprint. In this sense it aims to develop applications
and computing systems that fall within the Green ICT
paradigm that means using hardware/software technology
efficiently in the same time with providing economic viability,
social responsibility and clean environmental impact. The
work that underlies this research paper fall into the category
of "Green by IT" aiming to reduce the environmental impact
of operations using IT and by efficient resource usage
management. More precisely, we intend to present a
solution of reducing the video traffic on the Internet by
designing an appropriate algorithms of cache blocks
replacement which reduces the cache miss accesses in
social media data storage centres. This not only decreases
the video-retrieval time pleasing the user, but also will
reduce the energy consumption with world-wide social
benefits. By implementing performant cache replacement
algorithms we will accelerate the search process of videos
in YouTube and we will measure the Internet traffic
exemption (in MB) if the cache miss rate decreases (for
each particular algorithm) and we will also estimate how
much energy is saved by the data centers of search
engines. This has a very positive social impact by
contributing to maintaining a clean environment, given
that the resource requirements (storage and network
bandwidth) of social media are growing.},
}