Front-end Links Specification Sheet

ROD-ROB Link

(1) Overview

The ROD-ROB link, also called Read-out Link, is the link that connects the Read-out Drivers to the Read-out Buffers. Both the ROD and the ROB will be outside the cavern, which means that there are no strict radiation or power requirements. Around 1500 serial links are required, each one running at 100 MByte/sec over a distance of up to 200 m. The links use flow control, which means that fibres are needed in both directions. The S-LINK project has made a start of defining a read-out link and has built several links, interfaces and test tools. Those links are actively being used and feedback is being collected from testbeams. All results from the S-LINK project will be invaluable for the final specification and design of the Read-out Links.

(2) Notes and Terminology

See Template Front-end Links Specification Sheet.

(3) ROD-ROB Link Specification Sheet


	ROD to ROB	ROB to ROD
GENERAL
Physical characteristics
Number of links	1500	1500
Length of links	200 m
Grouping of links	1	1
Connections along a link	0
Fibre type conserved	Yes
Redundant links	No

Data characteristics
Data format (width)	32 + 1 bit	1 bit (flow control)
Speed	100 MByte/s (1998) 160 MBytes/s (2000)
Clock	40 MHz
Redundancy	No

Debugging
Test mode	Yes	Yes
Link down indication	Yes	Yes

`Failures'
Max detectable BER	10^-12
Error correction	No (Error detection: yes)
Tolerable MTBF
Acceptable no. dead after 10 yrs	40

Miscellaneous
Eye safety issues	Yes
Access considerations	No
EMC considerations	Yes

Planning
Timescales	2003: production
Milestones	2002: pre-production link 2000: final URD
Work needed to complete solution	Reduce size and cost Decide on technology Collect feedback of users of S-LINK as input to URD

SIZE
Receiver connector	5 cm² * 10 mm
Transmitter connector	5 cm² * 10 mm
Cabling	150 cm² for all 1500 links
Receiving device	-
Transmitting device	-
Receiver electronics	50 cm² * 5 mm
Transmitter electronics	50 cm² * 5 mm

POWER CONSUMPTION
Whole receiver	3 Watt
Whole transmitter	3 Watt

RADIATION ISSUES
Receiving device	No
Transmitting device	No
Receiver electronics	No
Transmitter electronics	No
Receiver connector	No
Transmitter connector	No
Cabling	No

COST
Receiving device	CHF 50	CHF 50
Transmitting device	CHF 50	CHF 50
Receiver electronics	CHF 75	CHF 75
Transmitter electronics	CHF 75	CHF 75
Receiver connector	(in receiving device)	(in receiving device)
Transmitter connector	(in transmitting device)	(in transmitting device)
Cabling	CHF 100	CHF 100

(4) Proposed Solutions

22 April 1998

Currently (April-1998) the S-LINK specification is being used in several ATLAS ROD/ROB link prototypes (e.g. MDT, TRT, TileCal). The feedback from those prototypes and from other users outside ATLAS (e.g. NA48, COMPASS) is being collected. Until now no major comments are received, which means that the S-LINK specification can be used as a solid basis for the final ROD-ROB link specification.

The components (not including the PCB) of S-LINK link cards using fibre optic drivers cost CHF 635 in low quantitites. The optical transceiver is taking more than half of this cost. In the S-LINK project we have several means of reducing the cost to the required CHF 250 per side. We will start using Gigabit Ethernet components (electrical transceivers and optical transceivers) which are likely to become much cheaper than the Fibre Channel components used now. Also we will be able to integrate more components as fast enough programmable chips are becoming available. A reduction in cost may be obtained if instead of seperate optical devices for each ROD-ROB link, we will combine the electrical links of twelve RODs and use a single 12-channel electrical to optical transceiver such as the Siemens PAROLI to drive a ribbon fibre with MT connectors. All those possibilities of reducing costs will be used in the ongoing S-LINK project and will have been tested before being used in the final ROD-ROB link.

Update 13 March 2000

The components (not including the PCB) of ODIN link cards using fibre optic drivers cost CHF 411 in low quantitites. This link can send data at 128 MB/s, while a more expensive version can send data at a speed near to 160 MB/s. The new Technical Proposal requires now a link speed of 160 MB/sec, which was before specified as 100 MB/s only. As this means new generation fibre-optic components are needed (2.5 Gbps instead of 1.25 Gbps), this will impact the costs of the links which is not reflected in the the table above. However, as we believe that not all links need to be running at 160 MB/s, we will keep having versions of the S-LINK that run at speeds over 100 MB/s, using cheaper components.

Update 27 October 2000

During the 2nd ATLAS ROD workshop the ODIN link was presented (1MB pdf). It was proposed to make the ODIN/S-LINK protocol logic available as a core function. This core can then be integrated with other logic on the ROD or ROB, which has the following advantages:

Much cheaper as need no extra FPGA, no extra PCB
Saves manufacturing, handling and testing costs
Lower power consumption
More reliable design (no connector)

The cost of the read-out link will be reduced to the price of the transmitter and receiver chips and the fibre-optic transceiver. This is CHF 306 in single quantity for the 128 MB/sec version (CHF 521 for the 160 MB/sec). Most ROD and ROB designers have shown interest for integrating the link logic on their boards.

Erik van der Bij - CERN/EP - 27 October 2000