[18] | 1 | Microelectronic allows to integrate complicated functions into products, to increase their |
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| 2 | commercial attractivity and to improve their competitivity. Multimedia and communication |
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| 3 | sectors have taken advantage from microelectronics facilities thanks to developpment of |
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| 4 | design methodologies and tools for real time embedded systems. Many other sectors could |
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| 5 | benefit from microelectronics if these methologies and tools are adapted to their features. |
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| 6 | The Non Recurring Engineering (NRE) costs involded in designing and manufacturing an ASIC is |
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| 7 | very high. It costs several milliars of euros for IC factory and several millions to fabricate |
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| 8 | a specific circuit for example a conservative estimate for a 65nm ASIC project is 10 million USD. |
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| 9 | Consequently, it is generally unfeasible to design and fabricate ASICs in |
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| 10 | low volumes and ICs are designed to cover a broad applications spectrum at the cost of |
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| 11 | performance degradation. |
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| 12 | \\ |
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| 13 | Today, FPGAs become important actors in the computational domain that was originally dominated |
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| 14 | by microprocessors and ASICs. Just like microprocessors FPGA based systems can be reprogrammed |
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| 15 | on a per-application basis. At the same time, FPGAs offer significant performance benefits over |
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| 16 | microprocessors implementation for a number of applications. Although these benefits are still |
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| 17 | generally an order of magnitude less than equivalent ASIC implementations, low costs |
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| 18 | (500 euros to 10K euros), fast time to market and flexibility of FPGAs make them an attractive |
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| 19 | choice for low-to-medium volume applications. |
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| 20 | Since their introduction in the mid eighties, FPGAs evolved from a simple, |
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| 21 | low-capacity gate array technology to devices (Altera STRATIX III, Xilinx Virtex V) that |
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| 22 | provide a mix of coarse-grained data path units, memory blocks, microprocessor cores, |
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| 23 | on chip A/D conversion, and gate counts by millions. This high logic capacity allows to implement |
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| 24 | complex systems like multi-processors platform with application dedicated coprocessors. |
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| 25 | Table~\ref{fpga_market} shows the estimation of FPGA worldwide market in the next years covering |
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| 26 | various application domains. The ``high end'' lines concern only FPGA with high logic capacity able |
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| 27 | to implement complex systems. |
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| 28 | This market is in significant expansion and is estimated to 914\,M\$ in 2012. |
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| 29 | Using FPGA limits the NRE costs to design cost. This boosts the developpment of methodologies |
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| 30 | and tools to automize design and reduce its cost. |
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| 31 | \begin{table}\leavevmode\center |
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| 32 | \begin{tabular}{|l|l|l|l|}\hline |
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| 33 | Segment & 2010 & 2011 & 2012 \\\hline\hline |
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| 34 | Communications & 1,867 & 1,946 & 2,096 \\ |
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| 35 | High end & 467 & 511 & 550 \\\hline |
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| 36 | Consumer & 550 & 592 & 672 \\ |
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| 37 | High end & 53 & 62 & 75 \\\hline |
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| 38 | Automotive & 243 & 286 & 358 \\ |
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| 39 | High end & - & - & - \\\hline |
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| 40 | Industrial & 1,102 & 1,228 & 1,406 \\ |
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| 41 | High end & 177 & 188 & 207 \\\hline |
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| 42 | Military/Aereo & 566 & 636 & 717 \\ |
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| 43 | High end & 56 & 65 & 82 \\\hline\hline |
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| 44 | Total FPGA/PLD & 4,659 & 5,015 & 5,583 \\ |
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| 45 | Total High-End FPGA & 753 & 826 & 914 \\\hline |
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| 46 | \end{tabular} |
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| 47 | \caption{\label{fpga_market} Gartner estimation of worldwide FPGA/PLD consumption (Millions \$)} |
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| 48 | \end{table} |
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| 49 | \par |
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| 50 | Today, several companies (atipa, blue-arc, Bull, Chelsio, Convey, CRAY, DataDirect, DELL, hp, |
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| 51 | Wild Systems, IBM, Intel, Microsoft, Myricom, NEC, nvidia etc) are making systems where demand |
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| 52 | for very high performance (HPC) primes over other requirements. They tend to use the highest |
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| 53 | performing devices like Multi-core CPUs, GPUs, large FPGAs, custom ICs and the most innovative |
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| 54 | architectures and algorithms. Companies show up in different "traditional" applications and market |
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| 55 | segments like computing clusters (ad-hoc), servers and storage, networking and Telecom, ASIC |
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| 56 | emulation and prototyping, Mil/aero etc. HPC market size is estimated today by FPGA providers |
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| 57 | to 214\,M\$. |
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| 58 | This market is dominated by Multi-core CPUs and GPUs based solutions and the expansion |
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| 59 | of FPGA-based solutions is limited by the flow automation. Nowadays, there are neither commercial |
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| 60 | nor free tools covering the whole design process. |
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| 61 | For instance, with SOPC Builder from Altera, users can select and parameterize IP components |
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| 62 | from an extensive drop-down list of communication, digital signal processor (DSP), microprocessor |
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| 63 | and bus interface cores, as well as incorporate their own IP. Designers can then generate |
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| 64 | a synthesized netlist, simulation test bench and custom software library that reflect the hardware |
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| 65 | configuration. |
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| 66 | Nevertheless, SOPC Builder does not provide any facilities to synthesize coprocessors\emph{I |
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| 67 | (Steven) disagree : the C2H compiler bundled with SOPCBuilder does a pretty good job at this} and to |
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| 68 | simulate the platform at a high design level (system C). |
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| 69 | In addition, SOPC Builder is proprietary and only works together with Altera's Quartus compilation |
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| 70 | tool to implement designs on Altera devices (Stratix, Arria, Cyclone). |
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| 71 | PICO [CITATION] and CATAPULT [CITATION] allow to synthesize coprocessors from a C++ description. |
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| 72 | Nevertheless, they can only deal with data dominated applications and they do not handle the |
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| 73 | platform level. |
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| 74 | The Xilinx System Generator for DSP [http://www.xilinx.com/tools/sysgen.htm] is a plug-in to |
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| 75 | Simulink that enables designers to develop high-performance DSP systems for Xilinx FPGAs. |
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| 76 | Designers can design and simulate a system using MATLAB and Simulink. The tool will then |
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| 77 | automatically generate synthesizable Hardware Description Language (HDL) code mapped to Xilinx |
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| 78 | pre-optimized algorithms. |
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| 79 | However, this tool targets only DSP based algorithms. |
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| 80 | \\ |
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| 81 | Consequently, designers developping an embedded system needs to master for example |
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| 82 | SoCLib for design exploration, |
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| 83 | SOPC Builde at the platform level, |
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| 84 | PICO for synthesizing the data dominated coprocessors |
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| 85 | and Quartus for design implementation. |
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| 86 | This requires an important tools interfacing effort and makes the design process very complex |
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| 87 | and achievable only by designers skilled in many domains. |
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| 88 | COACH project integrates all these tools in the same framework masking them to the user. |
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| 89 | The objective is to allow \textbf{pure software} developpers to realize embedded systems. |
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| 90 | \par |
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| 91 | The combination of the framework dedicated to software developpers and FPGA target, allows to gain |
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| 92 | market share over Multi-core CPUs and GPUs HPC based solutions. |
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| 93 | Moreover, one can expect that small and even very small companies will be able to propose embedded |
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| 94 | system and accelerating solutions for standard software applications with acceptable prices, thanks |
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| 95 | to the elimination of huge hardware investment in opposite to ASIC based solution. |
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| 96 | \\ |
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| 97 | This new market may explose like it was done by micro-computing in eighties. This success were due |
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| 98 | to the low cost of first micro-computers (compared to main frame) and the advent of high level |
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| 99 | programming languages that allow a high number of programmers to launch start-ups in software |
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| 100 | engineering. |
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| 101 | |
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