Global ETD Search

1	Entwicklung des Kommunikationsteilsystems für ein objektorientiertes, verteiltes Betriebssystem Becher, Mike 09 November 1998 (has links) Thema dieser Arbeit ist die Entwicklung eines Kommunikationsteilsystems fuer das Experimentiersystem CHEOPS zur Ermoeglichung einer Interobjektkommunika- tion zwischen Objekten auf dem gleichen bzw. verschiedenen Systemen. Ausgangspunkte stellen dabei eine verfuegbare Implementation eines Ethernet- Treibers der Kartenfamilie WD80x3 fuer MS-DOS, eine geforderte Kommunikations- moeglichkeit mit UNIX-Prozessen sowie die dort benutzbaren Protokoll-Familien dar. Die Arbeit beschaeftigt sich mit der Analyse und Konzipierung des Ethernet- Treibers sowie der Internet-Protokoll-Familie fuer CHEOPS als auch deren Implementation resultierend in einem minimalen Grundsystem. Weiterhin wird ein erster Entwurf fuer ein spaeter weiterzuentwickelndes bzw. zu vervoll- staendigendes Netz-Interface vorgeschlagen und durch eine Beispiel-Implemen- tierung belegt. ARP; Address Resolution Protocol; CHEOPS; Ethernet Device; Ethernet Treiber; Ethernet; ICMP; IP-Defragmentier-Algorithmus; IP-Routing-Algorithmus; IP; IPv4; Internet Control Message Protocol; Internet Protocol Version 4; Internet Protocol; Internet Protokoll; Interobjektkommunikation; Loopback Device; Loopback Treiber; Loopback; Massage basiertes Internet Protokoll; Message basierte Kommunikation; Message; Multi-Threaded ARP; Multi-Threaded Ethernet Treiber; Multi-Threaded ICMP; Multi-Threaded IP; Multi-Threaded Loopback Treiber; Multi-Threaded UDP; OOP; Objektorientierte Programmierung; Objektorientierter Ethernet Treiber; Objektorientierter Loopback Treiber; Objektorientiertes ARP; Objektorientiertes ICMP; Objektorientiertes IP; Objektorientiertes Netzwerk-Interface; Objektorientiertes UDP; UDP; User Datagram Protocol; multithreaded ARP; multithreaded ICMP; multithreaded IP; multithreaded UDP; multithreaded ethernet device driver; multithreaded loopback device driver; ddc:004
2	Design methodologies for built-in testing of integrated RF transceivers with the on-chip loopback technique Onabajo, Marvin Olufemi 15 May 2009 (has links) Advances toward increased integration and complexity of radio frequency (RF) andmixed-signal integrated circuits reduce the effectiveness of contemporary testmethodologies and result in a rising cost of testing. The focus in this research is on thecircuit-level implementation of alternative test strategies for integrated wirelesstransceivers with the aim to lower test cost by eliminating the need for expensive RFequipment during production testing.The first circuit proposed in this thesis closes the signal path between the transmitterand receiver sections of integrated transceivers in test mode for bit error rate analysis atlow frequencies. Furthermore, the output power of this on-chip loopback block wasmade variable with the goal to allow gain and 1-dB compression point determination forthe RF front-end circuits with on-chip power detectors. The loopback block is intendedfor transceivers operating in the 1.9-2.4GHz range and it can compensate for transmitterreceiveroffset frequency differences from 40MHz to 200MHz. The measuredattenuation range of the 0.052mm2 loopback circuit in 0.13µm CMOS technology was 26-41dB with continuous control, but post-layout simulation results indicate that theattenuation range can be reduced to 11-27dB via optimizations.Another circuit presented in this thesis is a current generator for built-in testing ofimpedance-matched RF front-end circuits with current injection. Since this circuit hashigh output impedance (>1k up to 2.4GHz), it does not influence the input matchingnetwork of the low-noise amplifier (LNA) under test. A major advantage of the currentinjection method over the typical voltage-mode approach is that the built-in test canexpose fabrication defects in components of the matching network in addition to on-chipdevices. The current generator was employed together with two power detectors in arealization of a built-in test for a LNA with 14% layout area overhead in 0.13µm CMOStechnology (<1.5% for the 0.002mm2 current generator). The post-layout simulationresults showed that the LNA gain (S21) estimation with the external matching networkwas within 3.5% of the actual gain in the presence of process-voltage-temperaturevariations and power detector imprecision. Built-in test (BIT) loopback offset mixer RF front-end testing RF current injection low-noise amplifier (LNA) integrated transceiver
3	Design methodologies for built-in testing of integrated RF transceivers with the on-chip loopback technique Onabajo, Marvin Olufemi 15 May 2009 (has links) Advances toward increased integration and complexity of radio frequency (RF) andmixed-signal integrated circuits reduce the effectiveness of contemporary testmethodologies and result in a rising cost of testing. The focus in this research is on thecircuit-level implementation of alternative test strategies for integrated wirelesstransceivers with the aim to lower test cost by eliminating the need for expensive RFequipment during production testing.The first circuit proposed in this thesis closes the signal path between the transmitterand receiver sections of integrated transceivers in test mode for bit error rate analysis atlow frequencies. Furthermore, the output power of this on-chip loopback block wasmade variable with the goal to allow gain and 1-dB compression point determination forthe RF front-end circuits with on-chip power detectors. The loopback block is intendedfor transceivers operating in the 1.9-2.4GHz range and it can compensate for transmitterreceiveroffset frequency differences from 40MHz to 200MHz. The measuredattenuation range of the 0.052mm2 loopback circuit in 0.13µm CMOS technology was 26-41dB with continuous control, but post-layout simulation results indicate that theattenuation range can be reduced to 11-27dB via optimizations.Another circuit presented in this thesis is a current generator for built-in testing ofimpedance-matched RF front-end circuits with current injection. Since this circuit hashigh output impedance (>1k up to 2.4GHz), it does not influence the input matchingnetwork of the low-noise amplifier (LNA) under test. A major advantage of the currentinjection method over the typical voltage-mode approach is that the built-in test canexpose fabrication defects in components of the matching network in addition to on-chipdevices. The current generator was employed together with two power detectors in arealization of a built-in test for a LNA with 14% layout area overhead in 0.13µm CMOStechnology (<1.5% for the 0.002mm2 current generator). The post-layout simulationresults showed that the LNA gain (S21) estimation with the external matching networkwas within 3.5% of the actual gain in the presence of process-voltage-temperaturevariations and power detector imprecision. Built-in test (BIT) loopback offset mixer RF front-end testing RF current injection low-noise amplifier (LNA) integrated transceiver
4	Entwicklung des Kommunikationsteilsystems für ein objektorientiertes, verteiltes Betriebssystem 09 November 1998 (has links) Thema dieser Arbeit ist die Entwicklung eines Kommunikationsteilsystems fuer das Experimentiersystem CHEOPS zur Ermoeglichung einer Interobjektkommunika- tion zwischen Objekten auf dem gleichen bzw. verschiedenen Systemen. Ausgangspunkte stellen dabei eine verfuegbare Implementation eines Ethernet- Treibers der Kartenfamilie WD80x3 fuer MS-DOS, eine geforderte Kommunikations- moeglichkeit mit UNIX-Prozessen sowie die dort benutzbaren Protokoll-Familien dar. Die Arbeit beschaeftigt sich mit der Analyse und Konzipierung des Ethernet- Treibers sowie der Internet-Protokoll-Familie fuer CHEOPS als auch deren Implementation resultierend in einem minimalen Grundsystem. Weiterhin wird ein erster Entwurf fuer ein spaeter weiterzuentwickelndes bzw. zu vervoll- staendigendes Netz-Interface vorgeschlagen und durch eine Beispiel-Implemen- tierung belegt. info:eu-repo/classification/ddc/004 ddc:004 ARP; Address Resolution Protocol; CHEOPS; Ethernet Device; Ethernet Treiber; Ethernet; ICMP; IP-Defragmentier-Algorithmus; IP-Routing-Algorithmus; IP; IPv4; Internet Control Message Protocol; Internet Protocol Version 4; Internet Protocol; Internet Protokoll; Interobjektkommunikation; Loopback Device; Loopback Treiber; Loopback; Massage basiertes Internet Protokoll; Message basierte Kommunikation; Message; Multi-Threaded ARP; Multi-Threaded Ethernet Treiber; Multi-Threaded ICMP; Multi-Threaded IP; Multi-Threaded Loopback Treiber; Multi-Threaded UDP; OOP; Objektorientierte Programmierung; Objektorientierter Ethernet Treiber; Objektorientierter Loopback Treiber; Objektorientiertes ARP; Objektorientiertes ICMP; Objektorientiertes IP; Objektorientiertes Netzwerk-Interface; Objektorientiertes UDP; UDP; User Datagram Protocol; multithreaded ARP; multithreaded ICMP; multithreaded IP; multithreaded UDP; multithreaded ethernet device driver; multithreaded loopback device driver;
5	Constraint-driven RF test stimulus generation and built-in test Akbay, Selim Sermet 09 December 2009 (has links) With the explosive growth in wireless applications, the last decade witnessed an ever-increasing test challenge for radio frequency (RF) circuits. While the design community has pushed the envelope far into the future, by expanding CMOS process to be used with high-frequency wireless devices, test methodology has not advanced at the same pace. Consequently, testing such devices has become a major bottleneck in high-volume production, further driven by the growing need for tighter quality control. RF devices undergo testing during the prototype phase and during high-volume manufacturing (HVM). The benchtop test equipment used throughout prototyping is very precise yet specialized for a subset of functionalities. HVM calls for a different kind of test paradigm that emphasizes throughput and sufficiency, during which the projected performance parameters are measured one by one for each device by automated test equipment (ATE) and compared against defined limits called specifications. The set of tests required for each product differs greatly in terms of the equipment required and the time taken to test individual devices. Together with signal integrity, precision, and repeatability concerns, the initial cost of RF ATE is prohibitively high. As more functionality and protocols are integrated into a single RF device, the required number of specifications to be tested also increases, adding to the overall cost of testing, both in terms of the initial and recurring operating costs. In addition to the cost problem, RF testing proposes another challenge when these components are integrated into package-level system solutions. In systems-on-packages (SOP), the test problems resulting from signal integrity, input/output bandwidth (IO), and limited controllability and observability have initiated a paradigm shift in high-speed analog testing, favoring alternative approaches such as built-in tests (BIT) where the test functionality is brought into the package. This scheme can make use of a low-cost external tester connected through a low-bandwidth link in order to perform demanding response evaluations, as well as make use of the analog-to-digital converters and the digital signal processors available in the package to facilitate testing. Although research on analog built-in test has demonstrated hardware solutions for single specifications, the paradigm shift calls for a rather general approach in which a single methodology can be applied across different devices, and multiple specifications can be verified through a single test hardware unit, minimizing the area overhead. Specification-based alternate test methodology provides a suitable and flexible platform for handling the challenges addressed above. In this thesis, a framework that integrates ATE and system constraints into test stimulus generation and test response extraction is presented for the efficient production testing of high-performance RF devices using specification-based alternate tests. The main components of the presented framework are as follows: Constraint-driven RF alternate test stimulus generation: An automated test stimulus generation algorithm for RF devices that are evaluated by a specification-based alternate test solution is developed. The high-level models of the test signal path define constraints in the search space of the optimized test stimulus. These models are generated in enough detail such that they inherently define limitations of the low-cost ATE and the I/O restrictions of the device under test (DUT), yet they are simple enough that the non-linear optimization problem can be solved empirically in a reasonable amount of time. Feature extractors for BIT: A methodology for the built-in testing of RF devices integrated into SOPs is developed using additional hardware components. These hardware components correlate the high-bandwidth test response to low bandwidth signatures while extracting the test-critical features of the DUT. Supervised learning is used to map these extracted features, which otherwise are too complicated to decipher by plain mathematical analysis, into the specifications under test. Defect-based alternate testing of RF circuits: A methodology for the efficient testing of RF devices with low-cost defect-based alternate tests is developed. The signature of the DUT is probabilistically compared with a class of defect-free device signatures to explore possible corners under acceptable levels of process parameter variations. Such a defect filter applies discrimination rules generated by a supervised classifier and eliminates the need for a library of possible catastrophic defects. SVM MARS BIST DfT BOT Built-off test BOST LNA Mixer Transmitter Receiver TX RX Loopback Loadboard Supervised learner Radio frequency integrated circuits Testing
6	Designing and implementing a small scale Internet Service Provider Brown, Johan, Gustafsson Brokås, Alexander, Hurtig, Niklas, Johansson, Tobias January 2009 (has links) <p>The objective of this thesis is to design and implement a small scaleInternet Service Provider (ISP) for the NetCenter sub department atMälardalen University. The ISP is intended to give NetCenter a networkseparate from the University’s network, providing them with a moreflexible environment for lab purposes. This will give their students anopportunity to experience a larger backbone with Internet accessibility,which has not been previously available. At the same time it will place theteachers in control of the network in the NetCenter lab premises.The network is designed with a layered approach including an Internetaccess layer, a larger core segment and a distribution layer with aseparated lab network. It also incorporates both a public and a privateserver network, housing servers running e.g. Windows Active Directory,external DNS services, monitoring tools and logging applications. TheInternet access is achieved by peering with SUNET providing a full BGPfeed.This thesis report presents methods, implementations and results involvedin successfully creating the NetCenter ISP as both a lab network and anInternet provider with a few inevitable shortcomings; the most prominentbeing an incomplete Windows Domain setup.</p> Computer science Datavetenskap
7	Probe Modules for Wafer-Level Testing of Gigascale Chips with Electrical and Optical I/O Interconnects Thacker, Hiren Dilipkumar 10 July 2006 (has links) The use of optical input/output (I/O) interconnects, in addition to electrical I/Os, is a promising approach for achieving high-bandwidth, chip-to-board communications required for future high-performance gigascale chip-based systems. While numerous efforts are underway to investigate the integration of optoelectronics and silicon microelectronics, virtually no work has been reported relating to testing of such chips. The objective of this research is to explore methods that enable wafer-level testing of gigascale chips having electrical and optical I/O interconnects. A major challenge in achieving this is to develop probe modules which would allow high-precision, temporary interconnection of a multitude of electrical and optical I/Os, in a chip-size area, to automated test equipment. A probe module would need to do this in a rapid, step-and-repeat manner across all the chips on the wafer. In this work, two candidate probe modules were devised, batch-fabricated on Si using microfabrication techniques, and successfully demonstrated. The first probe module consists of compliant electrical probes (10^3 probes/cm^2) fabricated alongside grating-in-waveguide optical probes. The second module consists of micro-opto-electro-mechanical-systems (MOEMS)-based microsocket probes (10^4 probes/cm^2) to interface a chip with polymer pillar-based electrical and optical I/Os. High-density through-wafer interconnects are an essential attribute in both probe substrates for transferring electrical and optical signals to the substrate back-side. Fabrication and characterization of metal-clad, metal-filled, and polymer-filled through-wafer interconnects as well as process integration with probe substrate fabrication are described and numerous possible redistribution schemes are explicated. Chips with optical and electrical I/Os are an emerging technology, and one that test engineers are likely to encounter in the near future. The contributions of this thesis are to help understand and address the issues relating to joint electrical and optical testing during manufacturing. Optoelectronic testing Optical testing MEMS Waveguide MOEMS Compliant leads Optical interconnects Packaging Interconnects Through-wafer interconnects Optical loopback Probe Probes (Electronic instruments) Testing High performance computing Research Microelectromechanical systems Optical interconnects Optoelectronic devices
8	Designing and implementing a small scale Internet Service Provider Brown, Johan, Gustafsson Brokås, Alexander, Hurtig, Niklas, Johansson, Tobias January 2009 (has links) The objective of this thesis is to design and implement a small scaleInternet Service Provider (ISP) for the NetCenter sub department atMälardalen University. The ISP is intended to give NetCenter a networkseparate from the University’s network, providing them with a moreflexible environment for lab purposes. This will give their students anopportunity to experience a larger backbone with Internet accessibility,which has not been previously available. At the same time it will place theteachers in control of the network in the NetCenter lab premises.The network is designed with a layered approach including an Internetaccess layer, a larger core segment and a distribution layer with aseparated lab network. It also incorporates both a public and a privateserver network, housing servers running e.g. Windows Active Directory,external DNS services, monitoring tools and logging applications. TheInternet access is achieved by peering with SUNET providing a full BGPfeed.This thesis report presents methods, implementations and results involvedin successfully creating the NetCenter ISP as both a lab network and anInternet provider with a few inevitable shortcomings; the most prominentbeing an incomplete Windows Domain setup. Computer Sciences Datavetenskap (datalogi)

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