The two main categories of processors are 32-bit and
64-bit. The type of processor a computer has not only affects its
overall performance, but it can also dictate what type of software it
uses.
32-bit processor
The 32-bit processor was the primary processor used in all computers until the early 1990s. Intel Pentium processors and early AMD
processors were 32-bit processors. The operating system and software on
a computer with a 32-bit processor is also 32-bit based, in that they
work with data units that are 32 bits wide. Windows 95, 98, and XP are
all 32-bit operating systems that were common on computers with 32-bit
processors.
Note: A computer with a 32-bit
processor cannot have a 64-bit version of an operating system
installed. It can only have a 32-bit version of an operating system
installed.
64-bit processor
The 64-bit computer has been around since 1961 when IBM created the IBM 7030 Stretch supercomputer. However, it was not put into use in home computers until the early 2000s.
Microsoft released a 64-bit version of Windows XP to be used on
computers with a 64-bit processor. Windows Vista, Windows 7, and Windows
8 also come in 64-bit versions. Other software has been developed that
is designed to run on a 64-bit computer, which are 64-bit based as well,
in that they work with data units that are 64 bits wide.
Note: A computer with a 64-bit
processor can have a 64-bit or 32-bit version of an operating system
installed. However, with a 32-bit operating system, the 64-bit processor
would not run at its full capability.
Note: On a computer with a 64-bit processor, you cannot run a 16-bit legacy
program. Many 32-bit programs will work with a 64-bit processor and
operating system, but some older 32-bit programs may not function
properly, or at all, due to limited or no compatibility.
Differences between a 32-bit and 64-bit CPU
A big difference between 32-bit processors and 64-bit
processors is the number of calculations per second they can perform, which
affects the speed at which they can complete tasks. 64-bit processors can come
in dual core, quad core, six core, and eight core versions for home computing. Multiple cores allow for an increased number of
calculations per second that can be performed, which can increase the
processing power and help make a computer run faster. Software programs that
require many calculations to function smoothly can operate faster and more
efficiently on the
multi-core 64-bit processors, for the most part.
Another big difference between 32-bit processors and 64-bit processors is the maximum amount of memory (RAM)
that is supported. 32-bit computers support a maximum of 3-4GB of
memory, whereas a 64-bit computer can support memory amounts over 4 GB.
This feature is important for software programs used in graphic design,
engineering, and video editing as these programs have to perform many
calculations to render their images.
One thing to
note is that 3D graphic programs and games do not benefit much, if at
all, from switching to a 64-bit computer, unless the program is a 64-bit
program. A 32-bit processor is adequate for any program written for a
32-bit processor. In the case of computer games, you'll get a lot more
performance by upgrading the video card instead of getting a 64-bit processor.
In
the end, 64-bit processors are becoming more and more commonplace in
home computers. Most manufacturers build computers with 64-bit
processors due to cheaper prices and because more users are now using
64-bit operating systems and programs. Computer parts retailers are
offering fewer and fewer 32-bit processors and soon may not offer any at
all.
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