Title :
Quantum arithmetic coding
Author :
Chuang, Isaac L. ; Modha, Dharmendra S.
Author_Institution :
IBM Almaden Res. Center, San Jose, CA, USA
Abstract :
We study the problem of compressing a block of symbols (a block quantum state) emitted by a memoryless quantum Bernoulli source. We present a simple-to-implement quantum algorithm for projecting, with high probability, the block quantum state onto the typical subspace spanned by the leading eigenstates of its density matrix. We propose a fixed-rate quantum Shannon-Fano code to compress the projected block quantum state using a per symbol code rate that is slightly higher than the von Neumann entropy limit. Finally, we propose quantum arithmetic codes to efficiently implement quantum Shannon-Fano codes
Keywords :
arithmetic codes; eigenvalues and eigenfunctions; quantum communication; source coding; arithmetic codes; block quantum state projection; density matrix; eigenstates; fixed-rate quantum Shannon-Fano code; memoryless quantum Bernoulli source; per symbol code rate; quantum arithmetic coding; quantum data compression; subspace; von Neumann entropy limit; Arithmetic; Block codes; Data compression; Entropy; Information theory; Modems; Physics; Quantum computing; Quantum entanglement; Quantum mechanics;
Conference_Titel :
Information Theory, 2000. Proceedings. IEEE International Symposium on
Conference_Location :
Sorrento
Print_ISBN :
0-7803-5857-0
DOI :
10.1109/ISIT.2000.866576
