Hybrid NRZ/Multi-Tone Signaling for High-Speed Low-Power Wireline Transceivers

Kiarash Gharibdoust
EPFL, 2016
Thèse EPFL

Résumé

Over the past few decades, incessant growth of Internet networking traffic and High-Performance Computing (HPC) has led to a tremendous demand for data bandwidth. Digital communication technologies combined with advanced integrated circuit scaling trends have enabled the semiconductor and microelectronic industry to dramatically scale the bandwidth of high-loss interfaces such as Ethernet, backplane, and Digital Subscriber Line (DSL). The key to achieving higher bandwidth is to employ equalization technique to compensate the channel impairments such as Inter-Symbol Interference (ISI), crosstalk, and environmental noise. Therefore, todayâs advanced input/outputs (I/Os) has been equipped with sophisticated equalization techniques to push beyond the uncompensated bandwidth of the system. To this end, process scaling has continually increased the data processing capability and improved the I/O performance over the last 15 years. However, since the channel bandwidth has not scaled with the same pace, the required signal processing and equalization circuitry becomes more and more complicated. Thereby, the energy efficiency improvements are largely offset by the energy needed to compensate channel impairments. In this design paradigm, re-thinking about the design strategies in order to not only satisfy the bandwidth performance, but also to improve power-performance becomes an important necessity. It is well known in communication theory that coding and signaling schemes have the potential to provide superior performance over band-limited channels. However, the choice of the optimum data communication algorithm should be considered by accounting for the circuit level power-performance trade-offs. In this thesis we have investigated the application of new algorithm and signaling schemes in wireline communications, especially for communication between microprocessors, memories, and peripherals. A new hybrid NRZ/Multi-Tone (NRZ/MT) signaling method has been developed during the course of this research. The system-level and circuit-level analysis, design, and implementation of the proposed signaling method has been performed in the frame of this work, and the silicon measurement results have proved the efficiency and the robustness of the proposed signaling methodology for wireline interfaces. In the first part of this work, a 7.5 Gb/s hybrid NRZ/MT transceiver (TRX) for multi-drop bus (MDB) memory interfaces is designed and fabricated in 40 nm CMOS technology. Reducing the complexity of the equalization circuitry on the receiver (RX) side, the proposed architecture achieves 1 pJ/bit link efficiency for a MDB channel bearing 45 dB loss at 2.5 GHz. The measurement results of the first prototype confirm that NRZ/MT serial data TRX can offer an energy-efficient solution for MDB memory interfaces. Motivated by the satisfying results of the first prototype, in the second phase of this research we have exploited the properties of multi-tone signaling, especially orthogonality among different sub-bands, to reduce the effect of crosstalk in high-dense wireline interconnects. A four-channel transceiver has been implemented in a standard CMOS 40 nm technology in order to demonstrate the performance of NRZ/MT signaling in presence of high channel loss and strong crosstalk noise. The proposed system achieves 1 pJ/bit power efficiency, while communicating over a MDB memory channel at 36 Gb/s aggregate data rate.

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https://infoscience.epfl.ch/record/218091?ln=fr

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Kiarash Gharibdoust
EPFL, 2016
Thèse EPFL

Résumé

Official source

https://infoscience.epfl.ch/record/218091?ln=fr

À propos de ce résultat

Concepts associés (21)

Concepts associés

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Publications associées (13)

Publications associées

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Wavelet footprints and frames for signal processing and communication

Pier Luigi Dragotti

Linear transforms and expansions are fundamental mathematical tools of signal processing. In particular, the wavelet transform has played an important role in several signal processing tasks, compression being a prime example. A signal can be represented in a basis or a frame. Frames, which are an extension of bases to overcomplete sets of vectors, are sometimes preferred to bases because of their greater design freedom and recently they have had an important impact in signal processing. This thesis focuses on the design of new bases and frames for signal processing and communications. The first contribution of the thesis is the exploration of the use of oversampled filter banks, which represent a possible way to implement frames, to robust communications. Normally, transforms are used as a pure source coding method and a reliable communication is obtained with a channel coder which follows the source coder. In this case, we use frames to achieve efficient source compression and robustness to transmission errors at the same time. In the context of pure source transform coding, we investigate the performance of the wavelet transform and study the dependency of the wavelet coefficients across scales. This analysis leads to the design of a new expansion which provides an efficient representation of piecewise smooth signals. We call footprints the elements of this expansion. The main property of footprints is that they efficiently characterize the singular structures of the signal, which usually carry the main information. We show that algorithms based on footprints outperform wavelet methods in different applications such as denoising, compression and deconvolution. Finally, we study a particular source coding technique called multiple description coding. This technique is used for data transmission over unreliable networks. In multiple description coding, the coder generates several different descriptions of the same signal and the decoder can produce a useful reconstruction of the source with any received subset of these descriptions. We study the problem of multiple description coding of stationary Gaussian sources with memory. First, we compute the multiple description rate distortion region for these sources. Then, we develop an algorithm for the design of optimal critically sampled filter banks for multiple description coding of Gaussian sources.

EPFL2002

Chargement

The recent advance of computer technology pushed the computing power of the modern computer systems to unprecedented levels; modern processors moved from the conventional, scalar type of architecture to more sophisticated, parallel ones, combining fast processing speed clock with multiple processing units. This jump of the computing power made possible the real-time implementations of many 3D audio algorithms that was hard to imagine 10-15 years before; on the other hand, the permanent increase of customer demand for real-time manipulation of the multimedia content leads to the development and implementation of more complex, and respectively more computationally demanding algorithms. The goal to deliver such sophisticated solutions to the market in a short time is already a difficult task; to achieve efficient solutions in such short terms, squeezing the maximum of the computing power of the currently available technologies, is even more challenging. In my thesis, I propose a solution to this problem by designing and implementing a framework that allows the developer to quickly design, implement and test custom 3D audio algorithms in an efficient way, with minimum efforts to port the already available code to another platform. The proposed approach started from a preliminary technology review and analysis in terms of development tools to find out and evaluate the state-of-the-art from 3D audio point of view. However, the performed analysis revealed some important drawbacks of these solutions in terms of fast reconfigurability for the implementation of custom 3D audio algorithms, and their capability for a precise synchronization and management of multiple stream media applications. First, it is in some cases necessary to develop completely new code to achieve the desired results, due to a lack of flexibility in the algorithm configurations or to unavailable functionality. Secondly, if the integration of different solutions and APIs, running at different hardware and software levels is pursued, this causes some problems with the synchronization between them, since high level APIs often introduce high latencies. The result is in some cases the system instability with consequent degraded quality, or even loss, of audio content for live and networked scenarios. In the end, it was noticed that if the APIs for 3D sound are higher level and developer-friendly they normally bring with them high latencies, sometimes-rigid 3D model solutions or high portability costs. If on the other hand they are lower-level solutions conceived for platform-independent low latency development and true real-time performance, the development of existing and particularly new 3D models may result long if good and robust source code is not available. To improve the situation, a new approach has been conceived to develop an independent middle-to-low level DSP library, which can provide a mid-layer development tool to easily design and configure new 3D algorithms. This simplifies at the same time the implementation task by providing the main building blocks in the field of signal processing and media streams, leaving to the developer enough flexibility and reconfigurability to implement the 3D audio models in a short time with the desired precision and quality. An object-oriented, two-level hierarchical structure has been adopted for the library. As a root of the hierarchy, some common properties for all primitives have been defined (e.g. number of input/output channels, single sample and block processing functions, etc.) and assigned to an object, common for all the DSP primitives (Parent Node). The first level (Atomic Level) contains the DSP primitives that cannot be built by the others: multiplier, adder, multiply-add, delay line, etc. Ideally, this layer corresponds to an instruction set and memory structures of a virtual machine designed for signal processing. The second level (Basic DSP Level) contains generic DSP primitives, e.g. low-pass filter, all-pass, nested all-pass, double nested all-pass, generic FIR and IIR filters, geometric and trigonometric operators (on vectors), FDN matrices, etc. This level is build by primitives, defined in the Atomic Level. Finally, as a test application, a 3D Audio layer has been implemented containing 3D algorithms, compatible first with the standardized VRML and MPEG-4 geometrical and perceptual room models, and in addition with several other algorithms like: Schroeder reverberator, Dattorro network reverberator, Gardner reverberator, etc. This allowed the successful integration of the proposed 3D audio library in a MPEG-4 compatible player, which has been implemented within the scope of the CARROUSO multimedia project. CARROUSO addressed the problem of how to transfer sound fields, generated at a certain real or virtual space, to another usually remote located space. The activities in CARROUSO did concentrate on the development and implementation of key components for recording, encoding, transmission and rendering, including hardware, software and algorithms. The transmission and coding was based on MPEG-4 and digital video broadcasting (DVB) technology, while sound recording and reproduction was based on wave field synthesis (WFS) technology. In this context, the MPEG-4 player is essential part of the chain, displaying the video content of the virtual scene, and providing the interface between the decoded sound content and the WFS rendering system. In contrast to the state-of-the art multi-channel sound systems, the new system has an enlarged listening area and is more flexible in respect to the number and the configuration of loudspeakers. The innovative work in CARROUSO found later its logical continuation in the MAP project where the developed 3D API has been exploited to integrate custom or standardized 3D audio models into a professional sound production toolbox, running on mixed general-purpose/FPGA/multimedia-DSP technology to obtain true real-time performance. In addition to the possibility to monitor locally multi-channel output, this tool provides at the same time the functionality to generate/encode object-oriented audio content, compatible to MPEG-4 BIFS format, which turns it into a sophisticated MPEG-4 authoring tool. As a conclusion, it could be noted, that the four years research and work during the CARROUSO and MAP projects, have proven in practice that the proposed 3D audio development framework is not only flexible and easily configurable, but it can be also very efficient, and ported to different platforms without putting significant effort in this task.

EPFL2004

Chargement

Efficient Distributed Multiresolution Processing for Data Gathering in Sensor Networks

Jugoslava Acimovic, Razvan Cristescu

We consider large sensor networks where the cost of collecting data from the network nodes to the data gathering sink is critical.~We propose several algorithms that use limited local communication and distributed signal processing to make communication more efficient in terms of transmission cost.~We consider a model that uses distributed wavelets-based signal processing.~We first propose an algorithm that performs processing at nodes as data is forwarded to the sink.~Then, we analyze algorithms that perform network division into groups of adaptive size and for which signal processing is applied separately to each group.~We show by numerical simulations that such multiresolution approaches result in significant improvements for data gathering in terms of total communication costs.

2005

Chargement

EPFL2004

Wavelet footprints and frames for signal processing and communication

Pier Luigi Dragotti

EPFL2002