Error detection/correction and fault detection/recovery – Pulse or data error handling – Data formatting to improve error detection correction...
Reexamination Certificate
2000-03-06
2004-04-06
Baker, Stephen M. (Department: 2133)
Error detection/correction and fault detection/recovery
Pulse or data error handling
Data formatting to improve error detection correction...
Reexamination Certificate
active
06718491
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to coding packetized data for serial transmission, and, in particular, to coding packetized data with an overhead sufficiently low to enable serial transmission through an Ethernet local area network with a bit rate of 10 gigabits/second (Gb/s) using an OC192 SONET laser operating at 10.3 Gb/s.
BACKGROUND OF THE INVENTION
For several decades now, integrated circuit and laser technologies have doubled in performance approximately every 18 months. These technologies have been used to support a rapidly-growing demand for global communications capacity. This demand is currently growing much faster than the underlying rate of improvement of the supporting technologies. As an example, communication traffic through the Internet has recently been doubling every nine months. The demand for additional current bandwidth is severely stressing the capabilities of current electronic and optical technologies.
In particular, the Ethernet local area network standard has progressively increased in speed by factors of ten, starting at 10 megabit per second (Mb/s) in 1982. Proposals for a 10 gigabit/second (Gb/s) Ethernet standard were made in 1999. The most recently adopted Ethernet standard used a 8b/10b line code described by A. X. Widmer and P. A. Franaszek in
A DC
-
Balanced, Partitioned
-
Block
, 8
b
/10
b Transmission Code
, 27 IBM J. R
ES. AND
D
EV
., (1983 September) for transmitting serial data at 1 Gb/s. In 8b/10b line code, each eight-bit input word is represented by a ten-bit code that is transmitted on the data link. In exchange for this 25% overhead, 8b/10b coding provides DC balance, and a guaranteed transition density. The ten-bit code additionally has the ability to represent an assortment of control words used for signalling and framing.
Re-using 8b/10b coding for sending information at 10 Gb/s was considered in the proposed 10 Gb/s Ethernet standard. However, using this technique would result in having to transmit at a baud rate of 12.5 Gbaud, i.e., 12.5 Gb/s.
With currently-available laser fabrication technology, manufacturing a laser capable of modulation at 12.5 Gb/s at a modest price is considered to be quite difficult. However, laser systems currently exist for use in systems conforming to the OC-192 SONET telecommunications standard. Such system operate at signalling rates of 9.95328 Gb/s. However, these commercially-available lasers do not have enough performance margin to run at more than 25% faster than their design speed.
One way to enable the lasers designed for use in SONET telecommunications systems to be used in the proposed 10 Gb/s Ethernet standard would be to design a simple and robust coding scheme with a lower overhead than 8b/10b line code. In principle, this goal can be achieved using a block code in which words of M bits are represented by an N-bit code and in which the ratio of N:M is less than 10:8.
A potential coding scheme having a lower overhead than 8b/10b line code is that used in the SONET telecommunications standard. The SONET coding scheme assures DC balance by using a scrambling system, and has an overhead of about 3%. However, the scrambling system used in the SONET coding scheme uses two layers of polynomial scrambling to achieve an adequate level of protection. This two-layer scheme is complex to implement. Moreover, the SONET coding scheme has a complex framing protocol that is difficult to implement at low cost. The SONET coding scheme would also have to be modified to add an extra level of encoding to support Ethernet packet delimiting. Such an extra level of coding would probably increase the overhead of the SONET coding to 7% or more. In addition, it is thought that the networking community would find the wholesale adoption of a telecommunications standard to be unpalatable. The performance and political difficulties just described would make it difficult for a standard based on the SONET coding scheme to be adopted as a new Ethernet standard.
Another potential coding scheme having a lower overhead than 8b/10b line code is that known as CIMT. This coding scheme is described in U.S. Pat. No. 5,022,051 of Crandall et al. and U.S. Pat. No. 5,438,621 of Hornak et al. The CIMT code is an (M)b/(M+4)b code that can be configured have a lower overhead than 8b/10b line code by making the value of M sufficiently large. However, for large values of M, the CIMT code is difficult to implement due to the need to compute the DC balance of an incoming block of M bits, and the need to compute a running DC balance of the transmitted bits in real time.
Thus, what is required is a method and apparatus for efficiently coding input data that has a lower overhead than 8b/10b line code and in which the integrated circuit die size and power dissipation are minimized. The method and apparatus should meet the performance requirements of the new Ethernet standard with respect to DC-balance, run-length control and error detection, and should support the non-data, control words such as idle, start-of-packet, end-of-packet, align and error that are required for Ethernet packet delimiting.
SUMMARY OF THE INVENTION
The invention provides a method for coding a packet of information words into frames for transmission. In the method, blocks of the input data are received. The input data include control words and the packet of information words. The packet has a start preceded by ones of the control words and an end followed by others of the control words. The blocks are smaller than the packet.
A determination of whether the block consists exclusively of information words is made. When the block consists exclusively of information words, a master transition having a first sense is appended to the block to form a frame.
When the block does not consist exclusively of information words, the block is condensed to accommodate a TYPE word, the TYPE word is generated and inserted into the block and a master transition is appended to the block to form the frame. The TYPE word has a value that indicates one of the following structural properties of the block: (a) the position of the start of the packet in the block, (b) the position of the end of the packet in the block, and (c) the block being composed exclusively of control words. The master transition appended to the block when the block does not consist exclusively of information words has a second sense, opposite to the first sense.
The invention also provides a coder for coding blocks of input data into respective frames for transmission. The input data include control words and a packet of information words. The packet has a start preceded by ones of the control words and an end followed by others of the control words. The blocks are smaller than the packet. The coder comprises a type word generator, a master transition generator, a payload field generator and a frame assembler.
The type word generator receives the block and generates a TYPE word for the block. The TYPE word has a value that indicates one of the following structural properties of the block: (a) whether the block is composed exclusively of control words, (b) a position of the start of the packet in the block, (c) a position of the end of the packet in the block, and (d) whether the block is composed exclusively of control words.
The master transition generator operates in response to the TYPE word and generates a master transition in a first sense when the TYPE word indicates that the block is composed exclusively of information words, and otherwise generates the master transition in a second sense, opposite to the first sense.
The payload field generator operates in response to the TYPE word. The payload field generator adopts the block to form a payload field of the frame when the TYPE word indicates that the block is composed exclusively of information words. The payload field generator otherwise condenses the block and inserts the TYPE word into the block to form the payload field.
The frame assembler appends the master transition to the payload field to form the frame.
The coder and coding method acco
Amrutur Bharadwaj
Dugan Richard W.
Walker Richard C.
Agilent Technologie,s Inc.
Baker Stephen M.
Hardcastle Ian
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