`Return-Path: <psiegel@cwc.ucsd.edu>
`Received: from mailbox2.ucsd.edu ([132.239.1.54]) by mail3.san.rr.com
` (Post.Office MTA v3.5.3 release 223 ID# 0-53939U80000L80000S0V35)
` with ESMTP id com for <hpfister@san.rr.com>;
` Mon, 5 Apr 1999 16:29:03 -0700
`Received: from split.ucsd.edu (split.ucsd.edu [132.239.24.94])
` by mailbox2.ucsd.edu (8.9.1a/8.9.1) with ESMTP id QAA24841
` for <hpfister@ucsd.edu>; Mon, 5 Apr 1999 16:30:52 -0700 (PDT)
`Received: from localhost by split.ucsd.edu (8.9.3/8.9.1) with ESMTP id
`QAA07869;
` Mon, 5 Apr 1999 16:30:49 -0700 (PDT)
`X-Authentication-Warning: split.ucsd.edu: psiegel owned process doing -bs
`Date: Mon, 5 Apr 1999 16:30:49 -0700 (PDT)
`From: Paul Siegel <psiegel@cwc.ucsd.edu>
`X-Sender: psiegel@split.ucsd.edu
`To: andre desrosiers <andre.desrosiers@conexant.com>,
` bruce moision <bmoision@cwc.ucsd.edu>,
` henry pfister <hpfister@ucsd.edu>,
` hugo tullberg <htullber@ece.ucsd.edu>, jilei hou <jhou@cwc.ucsd.edu>,
` kai tang <ktang@ece.ucsd.edu>, mats oberg <moberg@cwc.ucsd.edu>,
` pranesh sinha <pranesh.sinha@conexant.com>
`Subject: Forwarded mail....
`Message-ID: <Pine.GSO.4.05.9904051630020.7620-100000@split.ucsd.edu>
`MIME-Version: 1.0
`Content-Type: TEXT/PLAIN; charset=US-ASCII
`Status: OR
`
`Hi. Some of you may be interested in this new
`paper from Rudi Urbanki, et al.
`
`Paul
`
`***************************************************
`Paul H. Siegel
`Professor
`Department of Electrical and
` Computer Engineering, 0407
`University of California, San Diego
`9500 Gilman Drive
`La Jolla, CA 92093-0407
`
`TEL: 1-619-822-0158 FAX: 1-619-534-2486
`**************************************************
`
`---------- Forwarded message ----------
`Date: Mon, 5 Apr 1999 18:19:26 -0400
`From: ART@scarpia.research.bell-labs.com
`To: psiegel@ucsd.edu
`
`Dear Colleague:
`
`In recent weeks we designed sequences of low-density parity check
`codes that provably perform at rates extremely close to the Shannon
`capacity. For instance, our best code of rate 1/2 is
`asymptotically less than 0.06dB away from capacity for the AWGN
`channel. Simulation results indicate that for a length of 1,000,000 we
`can achieve an error probability of 10^(-6) at 0.13dB from capacity.
`Our codes are built from highly irregular bipartite graphs with
`carefully chosen degree patterns on both sides, by optimizing the
`threshold obtained in our previous paper.
`
`Hughes, Exh. 1066, p. 1
`
`
`
`Moreover, the paper gives some more theoretical insight into the
`behavior of the decoding process.
`
`A preprint of our paper, entitled
`"Design of provably good low-density parity check codes"
`can be obtained at
`
`http://cm.bell-labs.com/who/{ruediger or tjr}/pub.html
`
`As always, comments are most welcome.
`
` Best regards,
`
` Tom Richardson
` Amin Shokrollahi
` Ruediger Urbanke
`
`Hughes, Exh. 1066, p. 2
`
`