[Parallel] processing is, in sharp contrast to just a [Concurrent] processing, guaranteed to start / perform / finish all thread-level and/or instruction-level tasks executed in a parallel fashion and provides a guaranteed finish of the simultaneously executed code-paths.

Parallel processing is by far a more strict mode of execution of the code-units (tasks) than just a concurrent run of code-execution simultaneously ( just by coincidence ),
using more than one CPU or processor core
and other shared resources to execute a program
or multiple ( but mutually absolutely independent )
computational units ( tasks, threads, et al ).

Parallel processing has other meaning than just a wish/expectation to "make a program run faster", but
concentrates, from a design phase down to implementation, on orchestrating true-parallel execution on available computing architecture ( CPUs, cores, RAMs, IOs, GPUs, MPPAs et al),
providing a warranty for parallelism from start, during processing and parallel-finish of the [PARALLEL] unit of code.

A professional & principal disambiguation between [PARALLEL] vs. [CONCURRENT] is needed, as true parallel code-execution requires much more than just having a few cores and a fan-out of a hord of ( uncoordinated ) threads, hunting for time-sharing access to a pool of system-reserved resources. Concurrent execution is simply by far not a parallel-processing

Occam language was pioneering the pi-calculus mathematically warranted parallel-processing for [PARALLEL] sections of occam-code.

A good Rob Pike's speach on common misunderstanding on this subject

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