[1] William Wulff. Low latency network-on-chip. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2023.
[2] Zhengyang He. Complete development flow for an arbitrating communication module for a multi-core hearing aid platform. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2022. Formal collaboration with WS Audiology Inc.
[3] Hans Jakob Damsgaard. Hardware Accelerator for Spiking Neural Networks. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2021.
[4] Jacob Hebsgaard Jessen. Low-power neuron processor for spiking neural networks. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2021.
[5] Anthon Vincent Riber. Power-efficient hardware platform for Spiking neural network. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2020. Formal collaboration with Demant A/S.
[6] Mathias Braagaard. Implementation of a linearized Chi-Square method for the ATLAS Pattern Recognition. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2020. Collaboration with Niels Bohr Institute, Univ. of Copenhagen.
[7] Magnus Høegh Jensen. Implementation of Particle Track Parameter Calculations for the ATLAS Pattern Recognition. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2020. Collaboration with Niels Bohr Institute, Univ. of Copenhagen.
[8] Robert Thomas Fanning. Efficient implementation of UVM-based testbench for DSP modules. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2019. Collaboration with Widex A/S.
[9] Andreas Toftegaard Kristensen. Hardware Implementation of Neural Network Inference and Training for Embedded Systems. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2019. Project hosted by EPFL, Switzerland.
[10] Zuzana Jelcicova and Adrian Mardari. Neural Network Engine for Hearing Aids. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2019. Formal collaboration with Demant A/S.
[11] James Erik Groving Meade. Application-Specific Hardware to Accelerate Neural Network Training. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2019.
[12] Maja Lund. Real-Time Networking. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2018.
[13] Jimmi Marquart. Multi-core inter-core synchronization. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2018. Collaboration with GN ReSound Inc.
[14] Dimitrios Katsamanis. High Level Synthesis of a Datapath for a Graphics Processing Unit. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2018. Hosted by ARM Sweden AB, Lund.
[15] Fabian George. An interface for integration of generated VHDL and C code on a System-on-Chip radar back-end. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2017.
[16] Jesper Lønbæk. An Asynchronous Time-Division-Multiplexed Shared-Memory Network-on-Chip. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2017.
[17] Jens Joachim Krogslykke Pedersen. Asynchronous SoC serial communication infrastructures. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2016. Collaboration with Sigma Designs Denmark.
[18] Mathias Herlev. A Network-on-Chip Supporting Shared Memory Access in Real-Time Multi-Core Platforms. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2016.
[19] István Szönyi. Hardware accelerators for the T-CREST multi-core platform. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2016.
[20] Andreas Borup Svendsen. Fast FPGA-based processing of measurement data from scattering experiments . Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2014. Collaboration with Department of Physics, Technical University of Denmark.
[21] Luca Pezzarossa. Hardware Accellerators in Network-on-Chip Based Multi-Core Platforms. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2014. IMM-M.Sc.-2014-xx.
[22] Dean Roy Humphreys. Enhancing Embedded Data Acquisition using Zync SoC. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2014. (Formal collaboration with Prevas A/S.).
[23] Ioannis Kotleas. Mode changes in network-on-chip based multiprocessor platforms. Master's thesis, Department of Applied Mathematics and Computer Science, Technical University of Denmark, 2014. .
[24] E. Lakis. FPGA implementation of a time predictable memory controller for a chip-multiprocessor system. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2013. IMM-M.Sc.-2013-xx.
[25] P. Engkjær. Asynchronous Digital Control Circuit for Class-D Audio Power Amplifier. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2012. IMM-M.Sc.-2012-xx (Formal collaboration with Merus Audio ApS.).
[26] R.B. Sørensen. Programming of the T-CREST real-time multi-processor platform. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2012. IMM-M.Sc.-2012-xx.
[27] C.G. Sørensen and M.S. Ibsen. Time-synchronization in real-time distrubuted FPGA-systems using IEEE-1588 and redundant Ethernet. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2011. IMM-M.Sc.-2011-xx (Formal collaboration with MAN Diesel & Turbo A/S).
[28] R. Madsen. Desynchrinization of digital circuits. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2011. IMM-M.Sc.-2011-32.
[29] M. R. Jensen. Design of a hardware network address translation unit for a single chip high-speed ethernet router. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2009. IMM-M.Sc.-2009-27 (Formal collaboration with Vitesse Semiconductor Corporation Denmark).
[30] M. Djernæs. Code protection on programmable audio processors. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2008. IMM-M.Sc.-2008-54 (Double degree program w. Texas Tech University. Collaboration w. Texas Instruments Inc.).
[31] J. N. Lassen. Fpga prototyping of asynchronous networks-on-chip. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2008. IMM-M.Sc.-2008-26).
[32] M. E. Solgaard. Micro transducer controller. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2007. IMM-Thesis-2007-31 (Formal collaboration with Bang & Olufsen ICEpower a/s).
[33] J. S. Olsen. Soc design for an audio system. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2007. IMM-Thesis-2007-04 (Double degree program w. Texas Tech University. Collaboration w. Texas Instruments Inc.
[34] C. P. Pedersen. Virtual Circuits in Network-on-Chip. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2006. IMM-Thesis-2006-87.
[35] M. B. Stuart. High-Level Modeling of Networks-on-Chip. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2006. IMM-Thesis-2006-83.
[36] M. S. Rasmussen. Network-on-Chip in Digital Hearing Aids. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2006. IMM-Thesis-2006-76 (Formal collaboration with Widex a/s).
[37] M. B. Stensgaard. Design of an asynchronous communication network for an audio DSP chip. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2005. IMM-Thesis-2005-61.
[38] R. G. Olsen. OCP based adapter for network-on-chip. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2005. IMM-Thesis-2005-15.
[39] Xiaoshou Cai. Extremely low power fully synthesizable pree-add mulitply accumulate unit for a DSP. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2005. IMM-Thesis-2005-88 (Formal collaboration with GN ReSound Inc.).
[40] Andreas Vad Lorentzen. Low-power processors for the hogthrob project. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2004. IMM-Thesis-2004-91.
[41] J. P. Zhou. OCP Compliant Adapter for Network-on-chip. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2004. IMM-Thesis-2004-72.
[42] Mathias Nicolajsen Kjærgaard. Asynchronous implementation of virtual channals in on-chip networks. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2004. IMM-Thesis-2004-25.
[43] Thomas Christensen. On-chip netværk med prioriterede trafikklasser. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2003. IMM-Thesis-2003-37.
[44] Georgios Plakaris. Power efficient arithmetric circuits for application specific processors. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2003. IMM-Thesis-2003-29.
[45] K. Larsen. SoC system level integration. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2003. IMM-Thesis-2003-16.
[46] Y. Arnstein. Hardware-software co-design on a CPU-FPGA platform. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2002. IMM-Thesis-2002-10.
[47] K. A. Einarsson. A low-power DSP block for adaptive filtering. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2002. IMM-Thesis-2002-16 (Formal collaboration with Oticon Inc.).
[48] O. M. Christensen. Design and implementation of turbo-dekoder for radio communication. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2002. IMM-EKS-2002-46 (Formal collaboration with Thrane&Thrane Inc.).
[49] F. Maalik. Dynamic word-size adaptation in low power DSP processors. Master's thesis, Informatics and Mathematical Modelling, Technical University of Denmark, 2002. IMM-Thesis-2002-72.
[50] Jens-Peder Hammerstoft. Syntese af asynkrone kredsløb ud fra kontrol data flow grafer. IMM-Thesis-2001-44, Informatics and Mathematical Modelling, Technical University of Denmark, 2001.
[51] Niels Christian A. Haandbæk. Design and VLSI implementation of a dedicated low-power DSP circuit. Master's thesis, Dept. of Information Technology, Technical University of Denmark, July 2000. Report IT-E ???? (Formal collaboration with Oticon Inc.).
[52] Mogens Isager. Block level interconnect structures for low-power DSP chips. Master's thesis, Dept. of Information Technology, Technical University of Denmark, July 2000. Report no. IT-E ???? (Formal collaboration with Oticon Inc.).
[53] M. A. Hansen. Effektforhold ved implementering af DSP algoritmer i HW hhv. SW. Master's thesis, Department of Information Technology, Technical University of Denmark, 2000. IMM-Thesis-2000-?? (Formal collaboration with Nokia Danmark A/S).
[54] Jensen J. Schou. Højniveausyntese af asynkrone kredsløb. Master's thesis, Department of Information Technology, Technical University of Denmark, 2000. Report no. IT-T 831.
[55] R. Pereira. High performance bus structures for system on a chip. Master's thesis, Department of Information Technology, Technical University of Denmark, 2000. Report no. IT-E ???? (Formal collaboration with Nokia Danmark A/S).
[56] J. Carstensen. Asynchronous, high-speed, low-energy communication. Master's thesis, Department of Information Technology, Technical University of Denmark, February 1999. Report no. IT-E ???? (Formal Collaboration Ericsson Mobile Communications AB, Lund, Sweden).
[57] T. Bo Nielsen. Audio i/o modul - design af asynkron low-power decimering til delta-sigma konverter. Master's thesis, Department of Information Technology, Technical University of Denmark, February 1999. Report no. IT-E ???? (Formal collaboration with GN Danavox (now GN ReSound)).
[58] M. Lausten. Lav-effekt, lav-spændings cmos mac-kredsløb. Master's thesis, Department of Information Technology, Technical University of Denmark, February 1999. Report no. IT-E ???? (Formal collaboration with GN Danavox (now GN ReSound)).
[59] K. Rubak. Design af en generaliseret programmerbar i/0 enhed. Master's thesis, Department of Information Technology, Technical University of Denmark, 1999. Report no. IT-T 831.
[60] Sune Frankild. VHDL++ used for design of asynchronous digital circuits. Master's thesis, Department of Information Technology, Technical University of Denmark, 1999. Report IT-E 828.
[61] Özgün Paker. Low-power audio signal processor. Master's thesis, Department of Information Technology, Technical University of Denmark, 1998. Report IT-E ??? (Formal collaboration with Oticon A/S).
[62] Michael Pedersen. Design af asynkrone kredsløb vha. standard CAD værktøjer. Master's thesis, Department of Information Technology, Technical University of Denmark, 1998. Report IT-E 774.
[63] Kåre Tais Christensen and Peter Jensen. An Asynchronous Low Power RISC CPU. Master's thesis, Department of Information Technology, Technical University of Denmark, 1997. Report IT-E 749 (Formal collaboration with LSI Logic Denmark).
[64] Christian Scheel Vandel. Simpel internettilkobling til smarte hjem. Master's thesis, Department of Information Technology, Technical University of Denmark, 1997. Report no. IT-E ??? (Confidential).
[65] Peter Korger. Konstruktion af asynkrone kontrolkredsløb. Master's thesis, Department of Information Technology, Technical University of Denmark, 1996. Report no. IT-E 696.
[66] Morten Elo Pedersen. Power estimation for high level synthesis. Master's thesis, Department of Computer Science, Technical University of Denmark, 1995. Report ID-E 671.
[67] Kim Willi Schultze. Højhastigheds inter-chip kommunikation (English: High-speed inter-chip communication). Master's thesis, Department of Computer Science, Technical University of Denmark, 1995. ID-E 679.
[68] Jesper Frisgaard Hansen. Inputmodul til en 100 Mbit/sek Viterbi dekoder kreds. Master's thesis, Department of Computer Science, Technical University of Denmark, 1994. ID-E 622.
[69] Stig Rømer Rasmussen. Syntese af 3D-foldningsalgoritme fra VHDL beskrivelse. Master's thesis, Department of Computer Science, Technical University of Denmark, 1994. ID-E 621.
[70] Jens Ellerup Poulsen. Højhastighedsdesign af VLSI kredsløb. Master's thesis, Department of Computer Science, Technical University of Denmark, 1994. ID-E 611.
[71] Morten Bock. 100 mbit/sek acs-modul til viterbi dekoder chip. Master's thesis, Department of Computer Science, Technical University of Denmark, 1993. ID-E 584.
[72] Jakob Saxtorph. PSS modul til 100 Mbit/sek Viterbi dekoder chip. Master's thesis, Department of Computer Science, Technical University of Denmark, 1993. ID-E 601.
[73] Lars Skovby Nielsen. Design og evaluering af micropipeline kredsløb. Master's thesis, Department of Computer Science, Technical University of Denmark, 1992. Report ID-E 568.
[74] Erik Plesner. 'Self timed' kredse til digital signalbehandling (English: Delay insensitive circuits for digital signal processing). Master's thesis, Department of Computer Science, Technical University of Denmark, 1992. Report ID-E 561.
[75] Søren Rievers. Implementering af del af Reed-Solomon dekoder i VLSI (English: Implementation of Euclid’s algorithm in VLSI). Master's thesis, Department of Computer Science, Technical University of Denmark, 1991. Report ID-E 516.
[76] Michael Dantzer-Sørensen. VLSI implementering af regulære 'self-timed' strukturer. Master's thesis, Department of Computer Science, Technical University of Denmark, 1991. Report ID-E 518.
[77] Jens Fog Christensen and Ken Willen. Modulgenerator for RISC-processor til OCCAM. Master's thesis, Department of Computer Science, Technical University of Denmark, 1990. Report ID-E 502.
[78] Kim Engedahl. Højhastigheds CMOS-kredsløb i VLSI. Master's thesis, Department of Computer Science, Technical University of Denmark, 1989. Report ID-E 468 (In Danish).
[79] Niels Walentin Johansen. Implementering af CSP-kommunikation i VLSI. Master's thesis, Department of Computer Science, Technical University of Denmark, 1989. Report ID-E 469.
[80] K. Hansen and J.H. Jensen. Viterbi dekodning ved hastigheder over 10 Mbit/sek. Master's thesis, Department of Computer Science, Technical University of Denmark, 1989. Report ID-E 464.
[81] Peter Mose Andersen. VLSI-realisering af tilbagesøgningsmodul til viterbidekoder. Master's thesis, Department of Computer Science, Technical University of Denmark, 1989. Report ID-E 447.
[82] Lars Halling and Keld Pietraszek. Konstruktionsprincipper for asynkrone digitale systemer. Master's thesis, Department of Computer Science, Technical University of Denmark, 1988. Report ID-E 389.
[83] Henrik Nordtorp Jørgensen and Jesper Hartvig Jensen. 10 Mbit/sek Viterbi dekoder chip. Master's thesis, Department of Computer Science, Technical University of Denmark, 1988. Report ID-E 404.
[84] Jens C. Pedersen. Konstruktion af 'Self Timed' VLSI-systemer med lokalt klokkede elementer. Master's thesis, Department of Computer Science, Technical University of Denmark, 1988. Report ID-E 415.
[85] Flemming Jaller and Claus Ole Jensen. CSP baseret datanet. Master's thesis, Department of Computer Science, Technical University of Denmark, 1987. Report ID-E 347.
[86] Konstruktion af VLSI kreds til brug i interface til højhastigheds lokalt datanet. Master's thesis, Department of Computer Science, Technical University of Denmark, 1986. Report ID-E 319.
[87] Claus Dolleriis. Redesign af buffersystemet i et knudepunkt til LAN-DTH hovednettet. Master's thesis, Department of Computer Science, Technical University of Denmark, 1986. Report ID-E 338.
[88] Lars Zobbe Mortensen and Steen U. T. Hansen. Konstruktion af VLSI kreds til brug i interface til højhastigheds lokalt datanet. Master's thesis, Department of Computer Science, Technical University of Denmark, 1985. Report ID-E 282.
[89] Mogens Nordberg Jensen and Jesper Skavin. Interface til højhastigheds lokalt datanet. Master's thesis, Department of Computer Science, Technical University of Denmark, 1984. Report ID-E 257.
[90] Georg Lund Pedersen and Søren Ilsøe. Interface til højhastigheds lokalt datanet. Master's thesis, Department of Computer Science, Technical University of Denmark, 1984. Report ID-E 238.
[91] xxx. Konstruktion af LSI kredse v.hj.a. TILADS gate-array design systemet. Master's thesis, Department of Computer Science, Technical University of Denmark, 1984. Report ID-E 274.
[92] Ole Conradsen and Lester Martin. Datamaskine realiseret i 'Gate Array' teknologi. Master's thesis, Department of Computer Science, Technical University of Denmark, 1983. Report no. ID-E 218.
[93] Lars Christiansen. Syntese af forsinkelses-uafhængige kredsløb. Master's thesis, Department of Computer Science, Technical University of Denmark, 1982. Report ID-E 553.

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