Hgit 1 Topic PDF

Summary

This document discusses the environmental impact of software. It highlights the importance of considering sustainability aspects and efficient practices in software processes. The document also examines how software influences various aspects, such as e-waste generation and the need for more sustainable practices.

Full Transcript

Lead

Is generally used in printed circuit boards and in glass monitors. The
pathological

Effects of lead are most prominent in the nervous system, hematopoietic
system and

Kidneys. Excessive exposure to lead (Pb) results in clinical toxicity.
There has been

Extensive research to find a replacement for lead (Norwegian University
of Science and

Technology, 2010). There are also on-going efforts to recover lead from
the e-wast

(Duffy, 2008).

Cadmium is generally used in low-temperature soldering, plating for
corrosion protection, colorants in plastics and contact buttons in
relays (Penica and Hilty, 2004).

Cadmium when ingested affects the liver and kidneys. Research is
on-going to produce

Alternatives for its various uses.

Mercury

Is mainly used in monitors and batteries. Mercury is a well-known
pollutant

(US Geological Survey, 2000), and it affects the immune system, alters
genetic and

Enzyme systems and damages the nervous system. New light-emitting diode
(LED)

Backlit technologies have been developed which make monitors mercury
free. Mercury

Use in batteries has also been reduced considerably over the past few
years.

PBDEs and PBBs

Are used as flame retardants (Wisconsin Department of Natural

Resources, 2011). These materials are ubiquitous environmental
pollutants; they areextremely toxic and are banned in many countries.
Efforts are on-going to remove

These materials from the manufacture of computers.

Arsenic

Is used in glasses and in manufacturing semiconductors. Arsenic
interferes

With cellular longevity by allosteric inhibition of an essential
metabolic enzyme. Many

Arsenic prevention and recovery methodologies have been devised, and
these need to

Be actively deployed to reduce arsenic usage in the manufacturing
process.

PVC

Is one of the most commonly used plastics worldwide. It has been used
extensively in the manufacture of computer parts. Vinyl chloride, one of
the main ingredients

Of PVC, is a carcinogen and also affects the human reproductive system
(US Environmental Protection Agency (EPA), 2011). Of late, many
companies have eliminated the

Use of PVC in their devices.

The EPA Web site gives further information on these and other toxic
materials and how

Each of these chemicals affects the environment.

It is important that electronic device manufacturers avoid using these
chemicals in their

Devices and use environmentally friendly alternatives. Further, their
facilities' carbon

Footprint can be reduced by employing energy conservation techniques and
by using

Energy from renewable sources. Energy conservation techniques like
sensors for switching

Off lights automatically, and shutting down servers during weekends
(where possible), not

Only help reduce the carbon footprint but also result in lower energy
bills. In addition,

Environmentally sensitive materials like chlorofluorocarbons (CFCs)
should be avoided in

Air conditioning and cooling facilities. Such measures also help
companies in projecting

A good public imagePoints

Discusses how software (a virtual asset) can negatively impact the
environment.

Illustrates the importance of considering software's social and
economic aspects.

Examines current approaches to address environmental issues related to
software.

Introduces the notion of sustainable software development.

Presents a methodology to measure the sustainability performance of
software projects.

Illustrates the application of the methodology with a real-world case
study.

4.1 Introduction

In recent years, green IT has gained attention across the IT industry,
especially in organizations that maintain energy-intensive resources
such as data centres. Although most of

The focus has been on minimizing hardware's energy consumption and
improving resource

Utilization, very little attention is paid to the environmental impact
of software. Software

Is commonly regarded as neutral due to its virtual nature, but its
indirect impact is in fact

Real. The most obvious impact is the higher energy consumption caused by
inefficient software, but other issues, such as increasing e-waste
caused by existing computers becoming

Obsolete due to software demands, are greatly ignored by software
professionals.

A recent study (Swann, 2010) estimates that almost 2.5 billion PCs will
be rendered

Obsolete by 2013 as they cannot support the higher resources demanded by
software

Upgrades or newer software. Though most of these computers are usable
and in working

Condition, software requirements effectively make them unusable.
Further, only aboutand economic dimensions.

20% of these discarded computers will be properly disposed of and/or
recycled, whilst

The rest of the e-waste, which contains highly toxic materials, will be
dumped in landfills

(Krikke, 2008) thus polluting soil, water and air.

Software also creates social issues besides its environment impact. For
example, lack

Of accessibility support (i.e. support for disabled persons) effectively
excludes people

From the workforce. In addition, ill-designed and hard-to-use software
demands more

Training and user support which might increase software's carbon
footprint, particularly if

It involves printing and distributing hardcopy of training materials and
additional travel.

E-waste also creates a social issue, since most of the dumped and highly
toxic components

Are shipped illegally to developing countries, where they are handled by
untrained workers

Without protective gears, effectively risking their lives and putting
additional burden on

The community.

The terms green and sustainability are often used interchangeably, but
there is a subtle

Difference: Whilst green normally refers to environmental aspects,
sustainability encompasses environmental, economic and social dimensions
(Figure 4.1).

These three dimensions are integrated and interrelated:

Economic growth without addressing its environmental impact diminishes
quality

Of life.

Environmental protection without considering local culture and
traditions creates social

Injustice.

Social disruptions like riots and war jeopardize the environment and the
economy.

A healthy economy enables a better environment and social welfare.

In advocating sustainable software, we include all three sustainability
factors --

Environment, society and the economy -- and align them to the project's
business goals.

It is imperative to adopt a holistic approach, considering not only the
environmental

Aspects but also social and economic issues.

4.2 Current Practices

Unlike other engineering disciplines such as environmental and civil
engineering, currently

There are no well-established standards or practices to effectively
manage sustainability

In software projects. In the context of software, most of the effort on
software sustainability focuses on the maintenance of legacy systems,
and they do not address software

Sustainability in terms of environmental, social and economic aspects.