Reflective Memory. VMICBL-000-F5-xxxxxx Datasheet

VMICBL-000-F5-xxxxxx Memory. Datasheet pdf. Equivalent


General Electric Company VMICBL-000-F5-xxxxxx
GE Fanuc Automation
VMIVME-5565
Specifications
www.DataSheet4U.com
Ultrahigh Speed Fiber-Optic
Reflective Memory with Interrupts
Features:
High speed, easy to use fiber-optic network (2.12 Gbaud
serially)
Data written to memory in one node is also written to
memory in all nodes on the network
Up to 256 nodes
Connection with multimode fiber up to 300m, single mode
fiber up to 10km
Dynamic packet size, 4 to 64 bytes of data
Network transfer rate 43 Mbyte/s (4 byte packets) to
174 Mbyte/s (64 byte packets)
VMEbus transfer rate 40 Mbyte/s
64 Mbyte or 128 Mbyte SDRAM Reflective Memory
Two independent DMA channels
Any node on the network can generate an interrupt in any
other node on the network or in all network nodes with a
single command
Error detection
Redundant transfer mode for extra error suppression
No processor overhead
No processor involvement in the operation of the network
VMISFT-RFM2G network and shared memory driver included
Operating system support for Windows NT®, Windows® 2000,
VxWorks®, and Linux®


VMICBL-000-F5-xxxxxx Datasheet
Recommendation VMICBL-000-F5-xxxxxx Datasheet
Part VMICBL-000-F5-xxxxxx
Description Ultrahigh Speed Fiber-Optic Reflective Memory
Feature VMICBL-000-F5-xxxxxx; GE Fanuc Automation VMIVME-5565 Specifications www.DataSheet4U.com Ultrahigh Speed Fiber-Optic Ref.
Manufacture General Electric Company
Datasheet
Download VMICBL-000-F5-xxxxxx Datasheet




General Electric Company VMICBL-000-F5-xxxxxx
VMIVME-5565 Ultrahigh Speed Fiber-Optic Reflective Memory with Interrupts
Ordering Options
May 13, 2005 800-005565-000 E
A BC D E
VMIVME-5565
– 1 00
A = Memory Options
0 = 64 Mbyte
1 = 128 Mbyte
B = FIFOs
0 = Reserved
1 = 4 K FIFOs
C = Transmission Mode
0 = Multimode
1 = Single Mode
DEF = 0 (Options reserved for future use)
Simplex Cable Specifications
Fiber-Optic Cable – Multimode; (62.5 Micron core)
Fiber-Optic Cable Assemblies
A BC D E
VMICBL-000-F5
–0
00
www.DatAaBSC h=eCaebtl4eULe.ncgothms
000 = .5 ft (0.15m)
011 = 350 ft (106.68m)
001 = 1 ft (.31m)
012 = 500 ft (152.15m)
002 = 5 ft (1.52m)
013 = 574 ft (175m)
003 = 10 ft (3.04m)
014 = 656 ft (200m)
004 = 25 ft (7.62m)
015 = 820 ft (250m)
005 = 50 ft (15.24m)
016 = 1,000 ft (304.30m)
006 = 80 ft (24.40m)
017 = 1,148 ft (350m)
007 = 100 ft (30.49m)
018 = 1,312 ft (400m)
008 = 150 ft (45.72m)
019 = 1,500 ft (456.45m)
009 = 200 ft (60.98m)
020 = 1,640 ft (500m)
010 = 250 ft (76.20m)
DEF = 0 (Options reserved for future use)
For Ordering Information, Call:
1-800-322-3616 or 1-256-880-0444 • FAX (256) 882-0859
Email: info.embeddedsystems@gefanuc.com
Web Address: www.gefanuc.com/embedded
Copyright © 2005 by GE Fanuc Embedded Systems
Specifications subject to change without notice.
F
0
F
0
Functional Characteristics
Introduction: VMIVME-5565 is the VMEbus member of the
GE Fanuc Embedded Systems VMIxxx-5565 family of Reflective
Memory real-time network products. The other members of the
family are VMIVME-5565, PCI mezzanine card (PMC), and
VMIPCI-5565, the PCI-compatible board. All three of these
products are network compatible, and may be integrated into a
network in any combination. This family of products allows
computers, workstations, PLCs, and other embedded controllers
with dissimilar operating systems, or no operating system at all,
to share data in real time.
To the local node, the Reflective Memory board appears as
shared memory. Data can be written to or read from the
memory by any level of software, including the application
itself. Data written to the Reflective Memory in one node is
transported by the network hardware to all other nodes, and
placed in the same address on those node’s Reflective Memory
boards. This transport of data is accomplished without the
involvement of the processors on any node. Using this system,
all nodes on the network have a local copy of shared data
available for immediate access.
Product Overview: The Reflective Memory concept provides a
very fast and efficient way of sharing data across distributed
computer systems.
GE Fanuc Embedded Systems’ VMIVME-5565 Reflective Memory
interface allows data to be shared between up to 256
independent systems (nodes) at rates up to 174 Mbyte/s. Each
Reflective Memory board can be configured with either
64 Mbyte or 128 Mbyte of onboard SDRAM. The local SDRAM
provides fast Read access times to stored data. Writes are
stored in local SDRAM and broadcast over a high speed fiber-
optic data path to other Reflective Memory nodes. The transfer
of data between nodes is software transparent, so no I/O
overhead is required. Transmit and Receive FIFOs buffer data
during peak data rates to optimize processor and bus
performance to maintain high data throughput.
The Reflective Memory also allows interrupts to one or more
nodes by writing to a byte register. These interrupt (four levels,
each user definable) signals may be used to synchronize a
system process, or used to follow any data. The interrupt
always follows the data to ensure the reception of the data
before the interrupt is acknowledged.
Each node on the system has a unique identification number
between 0 and 255. The node number is established during
hardware system integration by a series of onboard switches.
This node number can be read by software by accessing an
onboard register. In some applications, this node number would
be useful in establishing the function of the node.
Link Arbitration: The VMIVME-5565 system is a fiber-optic daisy
chain ring as shown in Figure 1. Each transfer is passed from
node-to-node until it has gone all the way around the ring and
reaches the originating node. Each node retransmits all
transfers that it receives except those that it originated. Nodes
are allowed to insert transfers between transfers passing
through.
Interrupt Transfers: The VMIVME-5565 provides four network
interrupts. Any processor can generate an interrupt on any
other node on the network. In addition, any processor can
generate an interrupt on all nodes on the network with a single
register write.
In response to this interrupt register write, the sending
VMIVME-5565 issues a special packet over the network, which
contains the command strobe, the sender node ID, the
destination node ID, and 32 bits of data. When a receiving node
detects the proper combination of destination node ID and
command strobe, it stores the sender note ID and the data in
one of four 127 location-deep FIFOs. The four FIFOs correspond
to the four interrupts. Upon storing this information in a FIFO,
the receiving node issues an interrupt to the local processor if it
has been software-enabled. The 32 bits of data stored in the
FIFO is user-definable and typically is treated as an interrupt
vector. As part of an interrupt service routine, the local
processor reads this information out of the FIFO and acts
accordingly.
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General Electric Company VMICBL-000-F5-xxxxxx
VMIVME-5565 Ultrahigh Speed Fiber-Optic Reflective Memory with Interrupts
VMEbus Initiator/DMA Capabilities: The VMIVME-5565 supports
DMA operations. The DMA sequence is initialized by control
register writes to the VMIVME-5565 by the host. Therefore, the
VMIVME-5565 becomes a VMEbus initiator and moves the
specified block of data up to 64 Mbyte without further host
intervention. The architecture ensures that the VMIVME-5565
does not monopolize the VMEbus and causes the
VMIVME-5565’s DMA engine to automatically split large blocks
in small bursts. The VMIVME-5565 can be programmed to issue
a VMEbus interrupt upon completion of DMA process. There are
two independent DMA engines, each capable of reading or
writing. It is possible for a read DMA and a write DMA to occur
simultaneously.
Error Management: Errors are detected by the VMIVME-5565
with the use of the error detection facilities of the Fiber Channel
encoder/decoder and additional cyclic redundant encoding and
checking. When a node detects an error, the erroneous transfer
is removed from the system and an interrupt is generated, if
enabled.
www.DatParSotheecteiot4nUA.gcaoinmst Lost Data: The product is designed to
prevent the FIFOs from becoming full and overflowing. It is
important to note the only way that data can start to
accumulate in FIFOs is for data to enter the node at a rate
greater than the network data rate. Since data can enter from
the fiber and from the VMEbus, it is possible to exceed these
rates. If the transmit FIFO becomes almost full, a bit in the Status
Register is set. This is an indication to the node’s software that
subsequent WRITEs to the Reflective Memory should be
suspended until the FIFO is less than half-full. Once the transmit
FIFO is almost full, writes to the Reflective Memory will be
acknowledged with an interrupt. No data will be lost.
If the receive FIFO is allowed to become almost full, there is a
danger the receiver FIFO can overflow resulting in data loss. In
order to prevent this situation, the board will not respond to
Read or Write commands which if occurs for a long period of
time will cause the system controller to declare a time out.
Redundant Transfer Mode: The VMIVME-5565 can optionally be
placed in the redundant transfer mode by the removal of a
board jumper shunt. While in the redundant transfer mode, each
packet sent on the network by the transmitter is sent twice,
regardless of the dynamic packet size. The receiving circuitry of
each node on the network evaluates each of the redundant
transfers. If no errors are detected in the first transfer, it is used
to update the onboard memory and the second transfer is
discarded. If, however, the first transfer does contain an error,
the second transfer is used to update the onboard memory
provided it has no transmission error. In the remote chance that
both redundant transfers contain an error, both transfer is used
and the data is completely removed from the network.
The redundant transfer mode greatly reduces the chance that
any data is dropped from the network. However, the redundant
transfer mode also reduces the effective network transfer rates.
The single Lword (4 byte) transfer rate drops to approximately
20 Mbyte/s. The 16 Lword (64 byte) transfer rate drops to the
redundant rate of 87 Mbyte/s.
Network Monitor: There is a bit in the Status Register that can
be used to verify that data is traversing the ring (that is, the ring
is not broken). This can also be used to measure network
latency.
VMISFT-RFM2G Network and Shared Memory Driver: The
VMISFT-RFM2G network and shared memory driver provides an
applications program with three convenient methods for
exchanging data among hosts connected to the same RFM
network:
1) Programmed I/O (Peek and Poke): An applications program
can treat the memory on the RFM device as ordinary
memory in which the program can use ordinary load and
store accesses.
2) Direct Memory Access (DMA): Systems where the
performance penalty for individual bus accesses is
unacceptably high, the driver utilizes the DMA feature
available on some RFM devices in order to transfer data in
variable-sized blocks. On UNIX systems, an applications
program uses the familiar 1seek(2)/read(2)/write(2)
system calls to perform the data movement, while on other
operating systems a GE Fanuc Embedded Systems-provided
application program interface (API) is used for data
movement.
3) User Interrupts: The VMIPCI-5565 provides three network
interrupts. Any processor can generate an interrupt on any
other node on the network. In addition, any processor can
generate an interrupt on all nodes on the network with a
single register write.
Technical Specifications
Memory Size: 64 or 128 Mbyte
Network Nonredundant Transfer Rate: 43 Mbyte/s (single
longword accesses) to 174 Mbyte/s (64 byte bursts)
Network Redundant Transfer Rate: 20 Mbyte/s (single
longword accesses) to 87 Mbyte/s (64 byte bursts)
Compatibility
VMEbus: This product complies with the VMEbus specification
(ANSI/IEEE STD 1014-1987, IEC 821 and 297), with the following
mnemonics:
A32:A24:D32/D16/D08 (EO): Slave: 39/3D:09/0D Form factor: 6U
Cables
Multimode Fiber Cable: Small form factor (SFF)
850nm, 970 ft, multimode LC connector
Single Mode: Small form factor (SFF)
1,300nm, single mode, 10km or 6.21 miles
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