slovo | definícia |
multiprocess (encz) | multiprocess,paralelní proces Zdeněk Brož |
| podobné slovo | definícia |
multiprocessing (encz) | multiprocessing,paralelní zpracování n: Zdeněk Brož |
multiprocessor (encz) | multiprocessor,multiprocesor n: Zdeněk Brož |
multiprocessors (encz) | multiprocessors,multiprocesory n: pl. Zdeněk Brož |
real-time symmetric multiprocessor (czen) | Real-Time Symmetric Multiprocessor,RTSMP[zkr.] [voj.] Zdeněk Brož a
automatický překlad |
multiprocessing (wn) | multiprocessing
n 1: simultaneous processing by two or more processing units
[syn: multiprocessing, parallel processing] |
multiprocessor (wn) | multiprocessor
n 1: a computer that uses two or more processing units under
integrated control |
cellular multiprocessing (foldoc) | cellular multiprocessing
(CMP) The partitioning of
processors into separate computing environments running
different operating systems.
The term cellular multiprocessing appears to have been coined
by Unisys, who are developing a system where computers
communicate as clustered machines through a high speed bus,
rather than through communication protocols such as
TCP/IP.
The Unisys system is based on Intel processors, initially
the Pentium II Xeon and moving on to the 64-bit Merced
processors later in 1999. It will be scalable from four up to
32 processors, which can be clustered or partitioned in
various ways. For example a sixteen processor system could be
configured as four Windows NT systems (each functioning as a
four-processor symmetric multiprocessing system), or an
8-way NT and 8-way Unix system.
Supported operating systems will be Windows NT, SCO's
Unixware 7.0, Unisys' SVR4 Unix and possibly the OS2200
and MCP-AS mainframe operating systems (with the assistance
of Unisys' own dedicated chipset).
(http://marketplace.unisys.com/ent/cmp.html).
(1998-09-09)
|
hybrid multiprocessing (foldoc) | hybrid multiprocessing
HMP
(HMP) The kind of multitasking which OS/2
supports. HMP provides some elements of {symmetric
multiprocessing}, using add-on IBM software called MP/2.
OS/2 SMP was planned for release in late 1993.
(1995-03-19)
|
multiprocessing (foldoc) | parallel processing
multiprocessing
multiprocessor
parallel
parallel computing
(Or "multiprocessing") The simultaneous use of more
than one computer to solve a problem. There are many
different kinds of parallel computer (or "parallel
processor"). They are distinguished by the kind of
interconnection between processors (known as "processing
elements" or PEs) and between processors and memory. {Flynn's
taxonomy} also classifies parallel (and serial) computers
according to whether all processors execute the same
instructions at the same time ("{single instruction/multiple
data}" - SIMD) or each processor executes different
instructions ("multiple instruction/multiple data" - MIMD).
The processors may either communicate in order to be able to
cooperate in solving a problem or they may run completely
independently, possibly under the control of another processor
which distributes work to the others and collects results from
them (a "processor farm"). The difficulty of cooperative
problem solving is aptly demonstrated by the following dubious
reasoning:
If it takes one man one minute to dig a post-hole
then sixty men can dig it in one second.
Amdahl's Law states this more formally.
Processors communicate via some kind of network or bus or a
combination of both. Memory may be either shared memory
(all processors have equal access to all memory) or private
(each processor has its own memory - "distributed memory")
or a combination of both.
Many different software systems have been designed for
programming parallel computers, both at the operating system
and programming language level. These systems must provide
mechanisms for partitioning the overall problem into separate
tasks and allocating tasks to processors. Such mechanisms may
provide either implicit parallelism - the system (the
compiler or some other program) partitions the problem and
allocates tasks to processors automatically or {explicit
parallelism} where the programmer must annotate his program to
show how it is to be partitioned. It is also usual to provide
synchronisation primitives such as semaphores and monitors
to allow processes to share resources without conflict.
Load balancing attempts to keep all processors busy by
allocating new tasks, or by moving existing tasks between
processors, according to some algorithm.
Communication between tasks may be either via shared memory
or message passing. Either may be implemented in terms of
the other and in fact, at the lowest level, shared memory uses
message passing since the address and data signals which flow
between processor and memory may be considered as messages.
The terms "parallel processing" and "multiprocessing" imply
multiple processors working on one task whereas "{concurrent
processing}" and "multitasking" imply a single processor
sharing its time between several tasks.
See also cellular automaton,symmetric multi-processing.
Usenet newsgroup: news:comp.parallel.
Institutions (http://ccsf.caltech.edu/other_sites.html),
{research groups
(http://cs.cmu.edu/~scandal/research-groups.html)}.
(2004-11-07)
|
multiprocessor (foldoc) | parallel processing
multiprocessing
multiprocessor
parallel
parallel computing
(Or "multiprocessing") The simultaneous use of more
than one computer to solve a problem. There are many
different kinds of parallel computer (or "parallel
processor"). They are distinguished by the kind of
interconnection between processors (known as "processing
elements" or PEs) and between processors and memory. {Flynn's
taxonomy} also classifies parallel (and serial) computers
according to whether all processors execute the same
instructions at the same time ("{single instruction/multiple
data}" - SIMD) or each processor executes different
instructions ("multiple instruction/multiple data" - MIMD).
The processors may either communicate in order to be able to
cooperate in solving a problem or they may run completely
independently, possibly under the control of another processor
which distributes work to the others and collects results from
them (a "processor farm"). The difficulty of cooperative
problem solving is aptly demonstrated by the following dubious
reasoning:
If it takes one man one minute to dig a post-hole
then sixty men can dig it in one second.
Amdahl's Law states this more formally.
Processors communicate via some kind of network or bus or a
combination of both. Memory may be either shared memory
(all processors have equal access to all memory) or private
(each processor has its own memory - "distributed memory")
or a combination of both.
Many different software systems have been designed for
programming parallel computers, both at the operating system
and programming language level. These systems must provide
mechanisms for partitioning the overall problem into separate
tasks and allocating tasks to processors. Such mechanisms may
provide either implicit parallelism - the system (the
compiler or some other program) partitions the problem and
allocates tasks to processors automatically or {explicit
parallelism} where the programmer must annotate his program to
show how it is to be partitioned. It is also usual to provide
synchronisation primitives such as semaphores and monitors
to allow processes to share resources without conflict.
Load balancing attempts to keep all processors busy by
allocating new tasks, or by moving existing tasks between
processors, according to some algorithm.
Communication between tasks may be either via shared memory
or message passing. Either may be implemented in terms of
the other and in fact, at the lowest level, shared memory uses
message passing since the address and data signals which flow
between processor and memory may be considered as messages.
The terms "parallel processing" and "multiprocessing" imply
multiple processors working on one task whereas "{concurrent
processing}" and "multitasking" imply a single processor
sharing its time between several tasks.
See also cellular automaton,symmetric multi-processing.
Usenet newsgroup: news:comp.parallel.
Institutions (http://ccsf.caltech.edu/other_sites.html),
{research groups
(http://cs.cmu.edu/~scandal/research-groups.html)}.
(2004-11-07)
|
symmetric multiprocessing (foldoc) | symmetric multiprocessing
symmetric multiprocessor
(SMP) Two or more similar processors connected
via a high-bandwidth link and managed by one {operating
system}, where each processor has equal access to I/O devices.
This is in contrast to the "compute server" kind of
parallel processor where a front-end processor handles all
I/O to disks, terminals and local area network etc.
The processors are treated more or less equally, with
application programs able to run on any or perhaps all
processors in the system, interchangeably, at the operating
system's discretion. Simple MP usually involves assigning
each processor to a fixed task (such as managing the file
system), reserving the single main CPU for general tasks.
OS/2 currently supports so-called HMP (Hybrid
Multiprocessing), which provides some elements of symmetric
multiprocessing, using add-on IBM software called MP/2. OS/2
SMP was planned for release in late 1993.
(1995-03-19)
|
symmetric multiprocessor (foldoc) | symmetric multiprocessing
symmetric multiprocessor
(SMP) Two or more similar processors connected
via a high-bandwidth link and managed by one {operating
system}, where each processor has equal access to I/O devices.
This is in contrast to the "compute server" kind of
parallel processor where a front-end processor handles all
I/O to disks, terminals and local area network etc.
The processors are treated more or less equally, with
application programs able to run on any or perhaps all
processors in the system, interchangeably, at the operating
system's discretion. Simple MP usually involves assigning
each processor to a fixed task (such as managing the file
system), reserving the single main CPU for general tasks.
OS/2 currently supports so-called HMP (Hybrid
Multiprocessing), which provides some elements of symmetric
multiprocessing, using add-on IBM software called MP/2. OS/2
SMP was planned for release in late 1993.
(1995-03-19)
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