DNA Computing
9th International Workshop on DNA Based Computers, DNA9, Madison, WI, USA, June 1-3, 2003, revised Papers (Lecture Notes in Computer Science)
1 edition
Our rough guess is there are 56,250 words in this book.
At a pace averaging 250 words per minute, this book will take 3 hours and 45 minutes to read. With a half hour per day, this will take 8 days to read.
How long will it take you?
This book will take an estimated to read at a reading speed averaging words per minute. With 30 minutes per day, this will take to read.
Enter your reading speedYou can take one of our WPM reading speed tests to find your reading speed.
Create a free account to track your reading progress, build your reading list, and set reading goals.
Author
Contributions
- Junghuei Chen (Editor) - Contributor
- John Reif (Editor) - Contributor
Publication
2004-03-31 - Springer
Language
English
Word Count
56,250 words, Guess
Page Count
225 pages
Physical Format
Paperback
Identifiers
- Open LibraryOL9054524M
- ISBN-139783540209300
- ISBN-103540209301
- OCLC Control Number54407984
- OCLC Control Numberdnacomputingconf00chen
and 3 more
- Library of Congress Control Number2004042935
- Goodreads3114367
- LibraryThing413251
Classifications
- LCCQA76.887 .I58 2003
Description
DNA Computing: 9th International Workshop on DNA Based Computers, DNA9, Madison, WI, USA, June 1-3, 2003. Revised Papers<br />Author: Junghuei Chen, John Reif<br /> Published by Springer Berlin Heidelberg<br /> ISBN: 978-3-540-20930-0<br /> DOI: 10.1007/b95518<br /><br />Table of Contents:<p></p><ul><li>A Lab-on-a-Chip Module for Bead Separation in DNA-Based Concept Learning </li><li>Parallel Translation of DNA Clusters by VCSEL Array Trapping and Temperature Control with Laser Illumination </li><li>Chemical Switching and Molecular Logic in Fluorescent-Labeled M-DNA </li><li>RCA-Based Detection Methods for Resolution Refutation </li><li>Word Design for Molecular Computing: A Survey </li><li>Time-Varying Distributed H Systems with Parallel Computations: The Problem Is Solved </li><li>Deadlock Decidability in Partial Parallel P Systems </li><li>Languages of DNA Based Code Words </li><li>Secondary Structure Design of Multi-state DNA Machines Based on Sequential Structure Transitions </li><li>Analyzing Secondary Structure Transition Paths of DNA/RNA Molecules </li><li>Self-Assembled Circuit Patterns </li><li>One Dimensional Boundaries for DNA Tile Self-Assembly </li><li>Proofreading Tile Sets: Error Correction for Algorithmic Self-Assembly </li><li>A DNA-Based Memory with In Vitro Learning and Associative Recall </li><li>Efficiency and Reliability of Semantic Retrieval in DNA-Based Memories </li><li>Nearest-Neighbor Thermodynamics of DNA Sequences with Single Bulge Loop </li><li>Mathematical Considerations in the Design of Microreactor-Based DNA Computers </li><li>Towards a Re-programmable DNA Computer </li><li>In Vitro Translation-Based Computations </li><li>Autonomous Biomolecular Computer Modeled after Retroviral Replication</li></ul>
First Sentence
Although one of the major attractions of DNA computing is the massive parallelism, the DNA computing operations involve a number of manual steps which require a large amount of time for bio-chemical reactions.
Subjects
Other Editions
- DNA Computing: 9th International Workshop on DNA Based Computers, DNA9, Madison, WI, USA, June 1-3, 2003, revised Papers (Lecture Notes in Computer Science)
Reader Reviews
No reviews yet for this book.
Be the first to share your thoughts!