Quiet Computing From VIA - Why
is Noise a Problem
The hum of your fan and the whine of your hard drive
do more than just distract from the movie you're watching.
In network environments like offices and school computer
rooms the background noise level from PCs and Servers
can reach between 50 and 60 decibels, similar to standing
next to a busy road.
A high level of background noise can have serious detrimental
effects on performance and productivity. Various studies
have been carried out to determine the negative effects
of PC noise on office productivity and stress in the
work place:
1) A 1998 report published in the British Journal of
Psychology found that excessive noise can diminish the
performance levels of office workers by as much as 60
percent.
2) A 2000 report in the Journal of Applied Psychology
by a Cornell University Research Team² that detailed
the specific negative effects of low intensity office
noise. They found that stress levels were significantly
higher in an office with low intensity background noise
than in a quiet office. This can adversely impact the
health and well being of office workers. The study group
also showed less motivation in approaching problem solving
tasks, seriously affecting productivity.
3) The Confederation of British Industry (1992)¹
estimates that, in the UK, 360 million working days
are lost each year through illness. The Health and Safety
Executive calculates that at least 50% of those lost
days are due to stress.
4) The US Federal agency National Institute for Occupational
Safety and Health (NIOSH)¹ identifies job stress
as a major cause of ailments and productivity loss,
and lists noise as one of the main contributors to workplace
stress.
The negative effects of PC noise also extend into the
classroom as PCs play an increasingly ubiquitous role
in education. A comprehensive 1999 study for the World
Health Organization recommends:
"In schools and preschools, to be able to hear
and understand spoken messages in class rooms, the
sound pressure level should not exceed 35 dBA during
teaching sessions."³
The WHO study specifies the same maximum level of 35
dBA for the interior of homes, to "maintain comfortable
speech intelligibility and avoid annoyance."
The demand for solutions to this problem is growing
and much of the PC industry's limited resources are
being directed at making the necessary huge power supply
and CPU coolers quieter. VIA's cool running processor
platforms are developed to solve the problem at the
source by generating as little heat as possible and
reducing the need for high speed and noisy processor,
power supply and case cooling fans. Highly efficient
VIA processor platforms not only require less forced
air cooling from fans, they also require less power
from the power supply, so a quieter, smaller power supply
can be used. The combination of a cooler CPU and power
supply results in less need for overall system cooling
from case fans, and so the whole PC can be made cooler
and quieter, simply by using a cool running processor.
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Main Causes of Noise in a PC
The main noise sources in typical PCs include:
» Cooling fans (in the CPU heatsink, the power
supply, the motherboard chipset, the VGA card/GPU and
the case itself).
» Hard disk drives.
» Optical drives.
Current typical PCs emit 3.0 to >5.0 bel sound power¹.
Even PCs at the bottom of this noise range (3.0 bel)
can be heard in a classroom, office or living room because:
1) In a classroom or office, it's rarely just one PC
but at least several and often dozens; in concert, even
3.0 bel PCs clearly become a source of noise. Two PCs
producing 3.5 bel of noise will add up to 3.8 bel; four
such PCs will make 4.1 bel; eight will make 4.5 bel
and 16 will make 4.8 bel. Ten identical PCs emitting
3.5 bel will add up to 4.5 bel¹.
2) In a living room, the ambient noise is often low
enough that it does not mask that level of noise.
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PC Noise Measurement Comparisons
Noise is generally measured in decibels (dB) which
is a complicated logarithmic scale rather than a linear
scale. As a simple guide, a 10dB difference is generally
perceived by the human ear as being twice or half as
loud. This means, for example, that if one source of
noise is measured at point of perception at 85 dB, another
source measured at 75 dB sounds half as loud. A 95 dB
source sounds twice as loud as the 85 dB source, and
four times louder than the 75 dB source.
The following table shows Sound Pressure Levels for
common sounds as a frame of reference to PC noise levels¹:
| SPL (db) |
Typical Environment
Average |
Description |
| 140 |
30 meters from military aircraft at take off |
Threshold of pain |
| 120 |
» Boiler shop
(maximum levels)
» Ships engine
room (full speed) |
Almost intolerable |
| 100 |
» Automatic lathe
shop
» Platform of underground
station (maximum levels)
» Printing press
room |
Very noisy |
| 80 |
» Curbside of
busy street
» Office with tabulating
machines |
Quite noisy |
| 60 |
» Restaurant,
Department Store
» Noisiest Gamer
PC |
PC Noisy |
| 50 |
» Conversational
speech at 1 meter
» Noisy workstation |
Clearly audible |
| 35-45 |
» Quiet office
or library
» Typical PC |
Subdued |
| 25-30 |
» Bedroom at
night
» Quiet PC |
Quiet |
| 20 |
» Quiet whisper
» Very quiet PC
» Background in
TV and recording studios |
Very quiet |
| 10 |
» Super quiet
PC |
Barely audible |
| 0 |
» 'Normal' threshold
of hearing |
Not audible |
PC noise consists of non-pure tones that are basically
many tones in complex combinations of frequency, amplitude
and timing. Human hearing sensitivity varies with frequency
where it is less sensitive in the high and low frequencies,
and more sensitive in the mid-range frequencies. The
"A" weighted scale was developed to compensate
for the irregular frequency response of human hearing
and "A" weighted decibel readings (expressed
in dBA) provide a more fair comparison of relative loudness.
 
A calibrated Sound Level Meter (SLM) and sound power
measurements of the Hush Silent Mini-ITX PC being taken
in an anechoic chamber (right).
The decibel (dB) is the measure of sound
pressure level (SPL) and is most commonly used to
measure PC noise (as dBA) because it is relatively simple
to perform these measurements. SPL measurements can
be seen as a single snapshot photograph of a particular
PC from one angle and is achieved through pointing a
single microphone at the system while it is running
and recording the noise reading.
Sound power is a more complete measurement of
PC noise that expresses the total amount of acoustic
energy emitted by a system. It can be seen as a 3D image
compiled from many photographs around the PC and is
achieved through placing multiple microphones from many
positions around the sound source and calculating a
noise value from all the microphone readings. Sound
power is a more accurate measurement of noise under
a wide range of environments, and correlates better
with human perception, especially for comparative purposes.
To distinguish sound power from SPL, it
is commonly expressed in bel (a decibel is 1/10th of
a bel). The A weighting scale is also generally applied
to sound power measurements.
For information on how to test PC noise
yourself, download this simple guide by SilentPCReview.com.
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Resources
For more information on computer noise, or to download
the Noise, Computing and VIA whitepaper, check out these
resources:
Find an extensive list of quiet components at SilentPCReview.
Other Quiet Computing Links
| Resource |
Description |
| |
The best web resource
for comprehensive, noise-focused reviews of PC
components and systems, detailed DIY approaches
to silent computing, and the liveliest forum of
silent PC enthusiasts. |
| |
Probably the most
comprehensive and indepth website for silent computing
on the web |
| |
An article about
how to build a quiet VIA C3™ system using
a passive CPU cooler |
| |
Healthy Computing
overview |
| |
The Quest for Silence
: An attempt at eliminating computer generated
noise |
| |
An in depth technology
paper on disk drive acoustics and disk drive noise
in general |
| |
A great site with
all the best silent computer products and information
for quieting your noisy computer |
| |
"If you've
ever thought that something is conspicuous by
its absence, it's the noise your PC makes." |
| |
"Of Things
Quiet" |
| |
Resource Updates |
| |
Featuring News
and Press Release |
| |
For information
exchange on Silent PCs |
| |
No Noise Computer
Systems |
Remember that many noise reducing steps, like adding
additional noise absorbent materials inside your casing,
can help to heat up your system. We believe that keeping
a PC cool goes hand in hand with keeping a PC quiet,
so do the sensible thing and get into "cool processing". |
References
¹ "Noise, Computing and VIA", Mike Chin,
editor/publisher of SilentPC
Review, May, 2003
² "Stress and Open-Office Noise", Gary
W. Evans and Dana Johnson, Cornell University, Journal
of Applied Psychology, 2000, Vol. 85, No. 5, 779-783,
©2000 American Psychological Association.
³ Guidelines for Community Noise, edited by Birgitta
Berglund , Thomas Lindvall, and Dietrich H Schwela ©World
Health Organization 1999: http://www.who.int/peh/noise/guidelines2.html
From 'Table 4.1: Guideline values for community noise
in specific environments' in 'Chapter 4: Guideline Values'.
The actual noise term specified was LAeq(16hrs); LAeq
= Equivalent Continuous Noise Level. The noise level
in dB(A) which if present for the entire measurement
period would produce the same sound energy to be received
as was actually received as a result of a signal which
varied with time. Normally abbreviated to "Leq"
or "LAeq", often followed by a specification
of the time indicating the period of time to which the
measured value has been normalized; for example, "LAeq(8hr)". |
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