Abstract
The development of current and future broadband access techniques into the wireless domain introduces new and flexible network architectures with difficult and interesting challenges, e. g. access mechanisms, energy conservation, error rate, transmission speed characteristics of the wireless links and mobility aspects. This paper discusses first the major challenges in hardware architecture design of reconfigurable system-on-a-chip solutions for the digital baseband processing in future mobile radio devices. The focus of the paper is the introduction of a new dynamically reconfigurable hardware architecture tailored to this application area. Its performance issues and potential are discussed by the implementation of a flexible and computation-intensive component of future mobile terminals.
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P. Athanas, A. Abbot: Real-Time Image Processing on a Custom Computing Platform, IEEE Computer, vol. 28, no. 2, Feb. 1995.
R. W. Hartenstein, J. Becker et al.: A Novel Machine Paradigm to Accelerate Scientific Computing; Special issue on Scientific Computing of Computer Science and Informatics Journal, Computer Society of India, 1996.
R. W. Hartenstein, M. Herz, Th. Hoffmann, U. Nageldinger: KressArray Xplorer: A New CAD Environment to Optimize Reconfigurable Datapath Array Architectures; 5th Asia and South Pacific Design Automation Conference 2000, ASPDAC 2000, Yokohama, Japan, January 25–28, 2000
H. Erben, K. Sabatakakis: Advanced software radio architecture for 3rd generation mobile systems., Vehicular Technology Conference, 1998. VTC 98. 48th IEEE Published: 1998 Volume: 2, Page(s):825–829 vol.2
D. Efstathio, et al.: Recent Developments in Enabling Technologies for Software Radio, IEEE Comm. Mag., Aug. 1999. pp. 112–117.
Mitola.: The software Radio Architecture., IEEE Communication Mag., May 1995, pp. 26–38.
J. Becker, A. Kirschbaum, F.-M. Renner, M. Glesner: Perspectives of Reconfigurable Computing in Research, Industry and Education; 8th International Workshop On Field Programmable Logic And Applications, FPL’98, Tallinn, Estonia, August 31–Spetmber 3, 1998, Lecture Notes in Computer Science, Springer Press, 1998
David Nicklin:Utilising FPGAs in Re-configurable Basestations And Software Radios, Xilinx Inc. Electronic Eng. Mag.
Gregory Ray Goslin: A Guide to Using Field Programmable Gate Arrays (FPGAs) for Appliccation-Specific Digital Signal Processing Performance, Xilinx Inc. 1995.
Stephen D. Lingwood, et al. ”ASIC Implementation of a Direct-Sequence Spread-Spectrum RAKE-Receiver.”, IEEE 44th Vehicular Technology Conference, 1994.
Xilinx Corp.: http://www.xilinx.com/products/virtex.htm.
J. Becker, M. Glesner, A. Alsolaim, J. Starzyk: Fast Communication Mechanisms in Coarse-grained Dynamically Reconfigurable Array Architectures; Proc. of Second Int’l. Workshop on Engineering of Reconfigurable Hardware/Software Objects (ENREGLE’00, in conjunction with PDPTA 2000), June 23–24, 2000, Las Vegas, USA
Jhong Sam Lee, et al.,.: CDMA Systems Engineering Handbook.., Artech House, Boston. 1998.
Peter Jung, Joerg Plechinger., “M-GOLD: a multimode basband platform for future mobile terminals”,CTMC’99, IEEE International Conference on Communications, Vancouver, June 1999.
A. Alsolaim, J. Becker, M. Glesner, J. Starzyk: Architecture and Application of a Dynamically Reconfigurable Hardware Array for Future Mobile Communication Systems; Proc. of IEEE Symposium of Field-Programmable Custom Computing Machines (FCCM’00), April 17–19, 2000, Napa, USA
Tero Ojanpera, et. al.,: Wideband CDMA for Third Generation Mobile Communicatios., Artech House Pub., 1998.
Manfred Glesner, Juergen Becker, Lukusa Kabulepa: Microelectronic Systems Design Perspective for future Radio Communication Applications; Invited Paper for 1999 Asia Pacific Symposium on Information and Telecommunication Technologies (APSITT’99), 30–31 August 1999, Ulaanbaatar, Mongolia
Jan M. Rabaey: System Design at Universities: Experiences and Challenges; IEEE Computer Society International Conference on Microelectronic Systems Education (MSE’99), July 19–21, Arlington VA, USA
J. Becker, L. Kabulepa, F.-M. Renner, M. Glesner: Simulation and Rapid Prototyping of Flexible Systems-on-a-Chip for Future Mobile Communication Applications; Proc. of 11th IEEE Int’l. Workshop on Rapid System Prototyping (RSP’2000), Paris, France, June 2000
Jinn-Shyan Wang, Wayne Tseng, Hung-Yu Li: Low-Power Embedded SRAM with the Current-Mode Write Technique; IEEE Journal of Solid-State Circuits, Vol. 35, no. 1, January 2000
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Becker, J., Pionteck, T., Glesner, M. (2000). DReAM: A Dynamically Reconfigurable Architecture for Future Mobile Communication Applications. In: Hartenstein, R.W., Grünbacher, H. (eds) Field-Programmable Logic and Applications: The Roadmap to Reconfigurable Computing. FPL 2000. Lecture Notes in Computer Science, vol 1896. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-44614-1_34
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DOI: https://doi.org/10.1007/3-540-44614-1_34
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