63
Parallelization
When your computer has a multi-core processor (or multiple processors), TrueCrypt uses all of the
cores (or processors) in parallel for encryption and decryption. For example,
when TrueCrypt is to
decrypt a chunk of data, it first splits the chunk into several smaller pieces. The number of the
pieces is equal to the number of the cores (or processors). Then, all of the pieces are decrypted in
parallel (piece 1 is decrypted by thread 1, piece 2 is decrypted by thread 2, etc).
The same method
is used for encryption.
So if your computer has, for example, a quad-core processor, then encryption
and decryption are
four times faster than on a single-core processor with equivalent specifications (likewise, they are
twice faster on dual-core processors, etc).
Increase in encryption/decryption speed is directly proportional to the number of cores and/or
processors.
Note: Processors with the Hyper-Threading technology provide multiple logical cores per one
physical core (or multiple logical processors per one physical processor). When
Hyper Threading is
enabled in the computer firmware (e.g. BIOS) settings, TrueCrypt creates one thread for each
logical core/processor. For example, on a 6-core processor that provides two logical cores per one
physical core, TrueCrypt uses 12 threads.
When your computer has a multi-core processor/CPU (or multiple processors/CPUs), header key
derivation is parallelized too.
As a result, mounting of a volume is several times faster on a multi-
core processor (or multi-processor computer) than on a single-core processor (or a single-
processor computer) with equivalent specifications.
Note: Parallelization was introduced in TrueCrypt 6.0.
Dostları ilə paylaş: