Intel: Tick-Tock product development cadence

Thesis (S.M.)--Massachusetts Institute of Technology, System Design and Management Program, 2008.Includes bibliographical references (p. 124-142).This thesis investigates on changes in semiconductor industry's product development methodology by following Intel's product development from year 2000. Intel was challenged by customer's preference change, competitors new enhanced product, internet bubble burst economy, and miss steps in the business strategy. Dynamics of these challenges drove Intel to develop a new product strategy: Tick-Tock product cadence. The paper discusses reasons why Intel landed at the Tick-tock strategy and results how strong product portfolio Intel ended up constructing. The thesis further discusses how the new "Global Product Development" strategy evolves, which can take advantage of TickTock cadence and deliver it to the next level helped from the effective GPD and systems engineering deployment.by Cheolmin Park.S.M

2-wire time independent asynchronous communications

Communications both to and between low end microprocessors represents a real cost in a number of industrial and consumer products. This thesis starts by examining the properties of protocols that help to minimize these expenses and comes to the conclusion that the derived set of properties define a new category of communications protocol : Time Independent Asynchronous ( TIA) communications. To show the utility of the TIA category we develop a novel TIA protocol that uses only 2-wires and general IO pins on each host. The protocol is analyzed using the Petri net based STG ( Signal Transition Graph) which is widely use to model asynchronous logic. It is shown that STGs do not accurately model the behavior of software driven systems and so a modified form called STG-FT ( STG For Threads) is developed to better model software systems. A simulator is created to take an STG-FT model and perform a full reachability tree analysis to prove correctness and analyze livelock and deadlock properties. The simulator can also examine the full reachability tree for every possible system state ( the cross product of all sub-system states), and analyze deadlock and livelock issues related to unexpected inputs and unusual situations. Reachability pruning algorithms are developed which decrease the search tree by a factor of approximately 250 million. The 2-wire protocol is implemented between a PC and an Atmel Tiny26 microprocessor, there is also a variant that works between microprocessors. Testing verifies the simulation results including an avoidable livelock condition with data throughput peaking at a useful 50 kilobits/second in both directions. The first practical application of 2-wire TIA is part of a novel debugger for the Atmel Tiny26 microprocessor. The approach can be extended to any microprocessor with general IO pins. TIA communications, developed in this thesis, is a serious contender whenever low end microprocessors must communicate with other processors. Consumer and industrial products may be able to achieve cost saving by using this new protocol

Asynchronous 3D (Async3D): Design Methodology and Analysis of 3D Asynchronous Circuits

This dissertation focuses on the application of 3D integrated circuit (IC) technology on asynchronous logic paradigms, mainly NULL Convention Logic (NCL) and Multi-Threshold NCL (MTNCL). It presents the Async3D tool flow and library for NCL and MTNCL 3D ICs. It also analyzes NCL and MTNCL circuits in 3D IC. Several FIR filter designs were implement in NCL, MTNCL, and synchronous architecture to compare synchronous and asynchronous circuits in 2D and 3D ICs. The designs were normalized based on performance and several metrics were measured for comparison. Area, interconnect length, power consumption, and power density were compared among NCL, MTNCL, and synchronous designs. The NCL and MTNCL designs showed improvements in all metrics when moving from 2D to 3D. The 3D NCL and MTNCL designs also showed a balanced power distribution in post-layout analysis. This could alleviate the hotspot problem prevalently found in most 3D ICs. NCL and MTNCL have the potential to synergize well with 3D IC technology

Hybrid receiver study

The results are presented of a 4 month study to design a hybrid analog/digital receiver for outer planet mission probe communication links. The scope of this study includes functional design of the receiver; comparisons between analog and digital processing; hardware tradeoffs for key components including frequency generators, A/D converters, and digital processors; development and simulation of the processing algorithms for acquisition, tracking, and demodulation; and detailed design of the receiver in order to determine its size, weight, power, reliability, and radiation hardness. In addition, an evaluation was made of the receiver's capabilities to perform accurate measurement of signal strength and frequency for radio science missions

Designing Efficient Network Interfaces For System Area Networks

The network is the key component of a Cluster of Workstations/PCs. Its performance, measured in terms of bandwidth and latency, has a great impact on the overall system performance. It quickly became clear that traditional WAN/LAN technology is not too well suited for interconnecting powerful nodes into a cluster. Their poor performance too often slows down communication-intensive applications. This observation led to the birth of a new class of networks called System Area Networks (SAN). The ATOLL network introduces a new optimized architecture for SANs. On a single chip, not one but four network interfaces (NI) have been implemented, together with an on-chip 4x4 full-duplex switch and four link interfaces. This unique "Network on a Chip" architecture is best suited for interconnecting SMP nodes, where multiple CPUs are given an exclusive NI and do not have to share a single interface. It also removes the need for any additional switching hardware, since the four byte-wide full-duplex links can be connected by cables with neighbor nodes in an arbitrary network topology

The design and implementation of a dual hybrid electric vehicle control system

This research describes the development of a control system for a hybrid electric vehicle that uses the relatively novel configuration called the dual hybrid. The system is implemented in the UTK 1999 FutureCar Challenge entry, a Dodge Intrepid converted to dual hybrid operation with a student designed and constructed planetary based transmission. The control system includes models for the custom epicyclic transmission and battery pack state-of-charge. Control system implementation is done with the QNX real time operating system on a PC based microcomputer. Extensive discussion of the details of the software development is done with an emphasis on the reusability of the code The control software includes modes for electric-only, hybrid electric, park, neutral, and reverse operation. While extensive testing has yet to be done, preliminary tests indicate that the control system provides a working code base that can be easily updated, modified, and reused

A Structured Design Methodology for High Performance VLSI Arrays

abstract: The geometric growth in the integrated circuit technology due to transistor scaling also with system-on-chip design strategy, the complexity of the integrated circuit has increased manifold. Short time to market with high reliability and performance is one of the most competitive challenges. Both custom and ASIC design methodologies have evolved over the time to cope with this but the high manual labor in custom and statistic design in ASIC are still causes of concern. This work proposes a new circuit design strategy that focuses mostly on arrayed structures like TLB, RF, Cache, IPCAM etc. that reduces the manual effort to a great extent and also makes the design regular, repetitive still achieving high performance. The method proposes making the complete design custom schematic but using the standard cells. This requires adding some custom cells to the already exhaustive library to optimize the design for performance. Once schematic is finalized, the designer places these standard cells in a spreadsheet, placing closely the cells in the critical paths. A Perl script then generates Cadence Encounter compatible placement file. The design is then routed in Encounter. Since designer is the best judge of the circuit architecture, placement by the designer will allow achieve most optimal design. Several designs like IPCAM, issue logic, TLB, RF and Cache designs were carried out and the performance were compared against the fully custom and ASIC flow. The TLB, RF and Cache were the part of the HEMES microprocessor.Dissertation/ThesisPh.D. Electrical Engineering 201

The application of digital techniques to an automatic radar track extraction system

'Modern' radar systems have come in for much criticism in recent years, particularly in the aftermath of the Falklands campaign. There have also been notable failures in commercial designs, including the well-publicised 'Nimrod' project which was abandoned due to persistent inability to meet signal processing requirements. There is clearly a need for improvement in radar signal processing techniques as many designs rely on technology dating from the late 1970's, much of which is obsolete by today’s standards. The Durham Radar Automatic Track Extraction System (RATES) is a practical implementation of current microprocessor technology, applied to plot extraction of surveillance radar data. In addition to suggestions for the design of such a system, results are quoted for the predicted performance when compared with a similar product using 1970's design methodology. Suggestions are given for the use of other VLSI techniques in plot extraction, including logic arrays and digital signal processors. In conclusion, there is an illustrated discussion concerning the use of systolic arrays in RATES and a prediction that this will represent the optimum architecture for future high-speed radar signal processors