Laurence Marchini, Editor, writes:
We see from your search that you're looking for information on the term "VME64",
and we have a large number of manufacturers' news releases and technical articles here on Electronicstalk which will be of interest.
Let me be your guide.
Start with
the news release VME64 board handles harsh operating environments from
Concurrent Technologies, which we summarised at the time by saying "Well suited to conduction-cooled applications within the transportation, industrial control, telemetry, defence, security and aerospace markets".
A few weeks before,
we featured the news release Multiprocessor adds power to VXS systems from
GE Fanuc Embedded Systems: "The DSP220 is billed as the highest performance, VXS switched fabric-enabled, PowerPC-based multiprocessor for VXS applications yet designed".
In September 2007, we covered the news from Concurrent Technologies
concerning its VP 426/23x SBC
- take a look at SBC suits intensive data transfer
which says: "Concurrent Technologies' VP 426/23x single board computer effectively provides four processor cores".
Take a look also at the news release from VMETRO, VME64 card combines dual-core processor with FPGAs,
as well as Bridge chip gives VME320 SBC legacy appeal from Tundra Semiconductor,
and Dual carrier brings PMCs to VME from Varisys.
See also:
Core2 Duo on SBC for process control apps
(February 2007)
The V7865 single-board computer(SBC) based on the 2GHz V7865 Intel Core Duo Processor has good I/O flexibility for process-control applications
VITA 46 SBC has advanced I/O options
(October 2006)
Mistral Solutions has the industry's first VITA 46 (VPX)-based single board computer (SBC) from Curtiss Wright Controls Embedded Computing
Posix-conformant RTOS runs on top VMEbus BBC
(September 2005)
LynxOS v4.0 now supports the MVME6100, Motorola's highest-performance VMEbus single-board computer
More power for VMEbus connectivity engine
(April 2005)
Thales Computers has released a 400MHz version of its VCE405 Connectivity Engine that draws as little as 7W of power
VME board evolves to latest Pentium processor
(February 2005)
Concurrent Technologies now supports the latest Intel Pentium M processor 760, running at 2.0GHz with 533MHz front side bus, on its well-established VP 307/01x VME64 board
Latest low-power Pentium stars in new VME board
(May 2004)
The latest addition to the range of VME boards from Concurrent Technologies features the newly announced low power 1.8GHz Intel Pentium M processor 745 (formerly codenamed Dothan)
News on the 8x0 series VME64 adapters from SBS Technologies
(March 2004)
A new family of VME64 bus-to-bus adapters conveniently connects two buses - either VME64 with another VME64, or VME64 with PCI, PMC, or CompactPCI - effectively creating one virtual bus
Flexible I/O options for Pentium-based VME board
(January 2004)
The VP 305/01x is a high-performance, Pentium M based, VME single board computer with extensive front/rear I/O functionality
VME boards gain further 2eSST support
(November 2003)
Thales Computers now provides support for 2eSST transfers on VME systems running under LynxOS
VME boards support speedy transfers
(October 2003)
Thales Computers is to provide support for 2eSST transfers on VME systems running under VxWorks
VMEbus interface with 2eSST capability
(December 2002)
Thales Computers has released a white paper describing the implementation of its VMEbus interface with 2eSST capability
VME SBC takes on latest PowerPC processors
(November 2002)
Concurrent Technologies has broadened its PowerPC based VME64 family with the introduction of the VP 742/10x
Development subrack allows easy access
(October 2001)
Rittal's new CPCI Developer subrack provides a simple and inexpensive solution to test and debug CPCI front plug-in and rear-loaded I/O boards
CompactPCI and VME 64 Lever Handles
(December 2000)
Rittal's new type IVx handle for use with CPCI and VME64 extension subrack systems features metal hooks to prevent damage when used frequently with high pin-count connectors on plug-in boards
Getting the best out of the VME backplane
(September 2000)
We have now reached a point where today's 2mm Hard Metric connectors can provide a future-proof standard, according to Alan Simpson of Selectronix