The aim of this paper is to present a new design reuse approach for automatic generation of Voice over Internet protocol (VOIP) hardware description and implementation into FPSOCs and ASICs. Our motivation behind this work is justified by the following arguments: first, VOIP based System on chip (SOC) implementation is an emerging research and development area, where innovative applications can be implemented. Second, these systems are very complex and due to time to market pressure, there is a need to built platforms that help the designer to explore with different architectural possibilities and choose the circuit that best correspond to the specifications. Third, we aim to develop in hardware, design, methods and tools that are used in software like the MATLAB tool for VOIP implementation. To achieve our goal, the proposed design approach is based on a modular design of the VOIP architecture. The originality of our approach is the application of the design for reuse (DFR) and the design with reuse (DWR) concepts. To validate the approach, a case study of a SOC based on the OR1K processor is studied. We demonstrate that the proposed SoC architecture is reconfigurable, scalable and the final RTL code can be reused for any FPSOC or ASIC technology. As an example, Performances measures, in the VIRTEX-5 FPGA device family, and ASIC 65nm technology are shown through this paper.
A new design reuse approach for voip implementation into fpsocs and asicsijsc
The aim of this paper is to present a new design reuse approach for automatic generation of Voice over Internet protocol (VOIP) hardware description and implementation into FPSOCs and ASICs. Our motivation behind this work is justified by the following arguments: first, VOIP based System on chip (SOC) implementation is an emerging research and development area, where innovative applications can be implemented. Second, these systems are very complex and due to time to market pressure, there is a need to built platforms that help the designer to explore with different architectural possibilities and choose the circuit that best correspond to the specifications. Third, we aim to develop in hardware, design, methods and tools that are used in software like the MATLAB tool for VOIP implementation. To achieve our goal, the proposed design approach is based on a modular design of the VOIP architecture. The originality of our approach is the application of the design for reuse (DFR) and the design with reuse (DWR) concepts. To validate the approach, a case study of a SOC based on the OR1K processor is studied. We demonstrate that the proposed SoC architecture is reconfigurable, scalable and the final RTL code can be reused for any FPSOC or ASIC technology. As an example, Performances measures, in the VIRTEX-5 FPGA device family, and ASIC 65nm technology are shown through this paper.
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There are significant differences in offerings from the major vendors in terms of architecture, functionality and total cost of ownership. IT organizations are encouraged to work with their business units to understand their unique requirements and to articulate these in an RFP or other formal procurement vehicle.
A new design reuse approach for voip implementation into fpsocs and asicsijsc
The aim of this paper is to present a new design reuse approach for automatic generation of Voice over Internet protocol (VOIP) hardware description and implementation into FPSOCs and ASICs. Our motivation behind this work is justified by the following arguments: first, VOIP based System on chip (SOC) implementation is an emerging research and development area, where innovative applications can be implemented. Second, these systems are very complex and due to time to market pressure, there is a need to built platforms that help the designer to explore with different architectural possibilities and choose the circuit that best correspond to the specifications. Third, we aim to develop in hardware, design, methods and tools that are used in software like the MATLAB tool for VOIP implementation. To achieve our goal, the proposed design approach is based on a modular design of the VOIP architecture. The originality of our approach is the application of the design for reuse (DFR) and the design with reuse (DWR) concepts. To validate the approach, a case study of a SOC based on the OR1K processor is studied. We demonstrate that the proposed SoC architecture is reconfigurable, scalable and the final RTL code can be reused for any FPSOC or ASIC technology. As an example, Performances measures, in the VIRTEX-5 FPGA device family, and ASIC 65nm technology are shown through this paper.
UCaaS/Hybrid RFP & Review IP Telephony and Unified Communications SystemInteractiveNEC
There are significant differences in offerings from the major vendors in terms of architecture, functionality and total cost of ownership. IT organizations are encouraged to work with their business units to understand their unique requirements and to articulate these in an RFP or other formal procurement vehicle.
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Cognitel is Huawei authorized Training Academy(HANA) .This year Huawei has started their 6 months industrial training program, those undergoing training would be getting course completion certificate from Huawei , where as those performing well in their assessment program would be getting opportunity to sit in Huawei HCIG certification . HCIG certified students would be interviewed by Huawei and associated companies if any requirement arises .
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Comparison of Cinepak, Intel, Microsoft Video and Indeo Codec for Video Compr...ijma
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compression. The peak signal to noise ratio is used to compare the quality of such video compressed using
AVI codecs. The most widely used objective measurement by developers of video processing systems is
Peak Signal-to-Noise Ratio (PSNR). Peak Signal to Noise Ration is measured on a logarithmic scale and
depends on the mean squared error (MSE) between an original and an impaired image or video, relative to
(2n-1)2.
Previous research done regarding assessing of video quality has been mainly by the use of subjective
methods, and there is still no standard method for objective assessments. Although it has been considered
that compression might not be significant in future as storage and transmission capabilities improve, but at
low bandwidths compression makes communication possible.
Cognitel is Huawei authorized Training Academy(HANA) .This year Huawei has started their 6 months industrial training program, those undergoing training would be getting course completion certificate from Huawei , where as those performing well in their assessment program would be getting opportunity to sit in Huawei HCIG certification . HCIG certified students would be interviewed by Huawei and associated companies if any requirement arises .
Please click below link to complete registration process
http://goo.gl/tP7iGa
A NEW SYSTEM ON CHIP RECONFIGURABLE GATEWAY ARCHITECTURE FOR VOICE OVER INTER...csandit
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justified by the following arguments: most of VOIP solutions proposed in the market are based
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processor. This last one integrates a DSP circuit as well as a MMU. The hardware architecture
is mapped into the VIRTEX-5 FPGA device. We propose a design methodology based on the
design for reuse and design with reuse concepts. We demonstrate that the proposed SoC
architecture is reconfigurable, scalable and the final RTL code can be reused for any FPGA or
ASIC technology. Performances measures, in the VIRTEX-5 FPGA device family, show that the
SOC-gateway architecture occupies 52% of the FPGA in term of slice LUT, 42% of IOBs, 60%
of bloc memory, 8% of integrated DSP, 16% of PLL and the total power is estimated at
4.3Watts.
Performance of State-of-the-Art Cryptography on ARM-based MicroprocessorsHannes Tschofenig
Position paper for the NIST Lightweight Cryptography Workshop, 20th and 21st July 2015, Gaithersburg, US.
The link to the workshop is available at: http://www.nist.gov/itl/csd/ct/lwc_workshop2015.cfm
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A NEW SYSTEM ON CHIP RECONFIGURABLE GATEWAY ARCHITECTURE FOR VOICE OVER INTER...cscpconf
The aim of this paper is to present a new System on Chip (SoC) reconfigurable gateway architecture for Voice over Internet Telephony (VOIP). Our motivation behind this work is
justified by the following arguments: most of VOIP solutions proposed in the market are based on the use of a general purpose processor and a DSP circuit. In these solutions, the use of the serial multiply accumulate circuit is very limiting for the signal processing. Also, in embedded VOIP based DSP applications, the DSP works without MMU (memory management unit). This is a serious limitation because VOIP solutions are multi-task based. In order to overcome these
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A New Design Reuse Approach for Voip Implementation into Fpsocs and ASICS
1. International Journal on Soft Computing (IJSC) Vol.4, No.4, November 2013
DOI: 10.5121/ijsc.2013.4402 21
A NEW DESIGN REUSE APPROACH FOR VOIP
IMPLEMENTATION INTO FPSOCS AND ASICS
Nouma Izeboudjen, Dalila Lazib, Mohammed Bakiri, Feroudja Abid, Sabrina
Titri, Fatiha Louiz
Development Centre of Advanced Technologies (CDTA),
Microelectronic and Nanotechnology Division
Lotissement 20 Aout 1956, Baba HAssen, Algiers, ALGERIA
ABSTRACT
The aim of this paper is to present a new design reuse approach for automatic generation of Voice over
Internet protocol (VOIP) hardware description and implementation into FPSOCs and ASICs. Our
motivation behind this work is justified by the following arguments: first, VOIP based System on chip
(SOC) implementation is an emerging research and development area, where innovative applications can
be implemented. Second, these systems are very complex and due to time to market pressure, there is a need
to built platforms that help the designer to explore with different architectural possibilities and choose the
circuit that best correspond to the specifications. Third, we aim to develop in hardware, design, methods
and tools that are used in software like the MATLAB tool for VOIP implementation. To achieve our goal,
the proposed design approach is based on a modular design of the VOIP architecture. The originality of
our approach is the application of the design for reuse (DFR) and the design with reuse (DWR) concepts.
To validate the approach, a case study of a SOC based on the OR1K processor is studied. We demonstrate
that the proposed SoC architecture is reconfigurable, scalable and the final RTL code can be reused for
any FPSOC or ASIC technology. As an example, Performances measures, in the VIRTEX-5 FPGA device
family, and ASIC 65nm technology are shown through this paper.
KEYWORDS
Voice over IP, Systems on Chip, FPGA, FPSOC, ASIC, Design reuse
1. INTRODUCTION
The rapid progress in the semiconductor technology, in conformity with the Moors‟ law
prediction, is offering to designers more integration capacity than they consume. This fact is well
known under the name of „„design gap‟‟ or „„design productivity problem‟‟ [1]. Besides this, the
very hard competition in electronic innovation is more and more constraining designers to reduce
to the minimum the time of putting their product on the market „„time to market.‟‟ To overcome
this problem, and according to the International Technology Road Map for Semiconductors
(ITRS) [2], three solutions are proposed:
- Exploitation of „„design reuse‟‟
- Development of advanced methodologies and tools for the design and test, particularly
using high abstraction levels
- Development of application specific platforms
2. International Journal on Soft Computing (IJSC) Vol.4, No.4, November 2013
22
These three solutions are complementary from each other. They aim to close the gap between
what the semiconductor technology is offering in term of integration capacity, and what is
practically possible to implement in silicon with current design methodologies and tools.
Subsequent to this progress in technology, VOIP has witnessed a great evolution since its
introduction in the beginning of 1995. Ended, a huge diversity of VOIP solutions have been
proposed, ranging from software applications based on general purpose processors and DSPs
circuits to dedicated applications based on ASICs, FPSOCs and embedded systems [3-7]. The
choice between one implementation style and another depends essentially on the target
application field which can be either an enterprise VOIP system or a small office-home office
VOIP system. The differences between these two implementation classes‟ reside principally in
the capacity of the gateways, the flexibility, the scalability and the complexity of the hardware
used. Aside these differences, there are common factors such as the quality of service and the
power dissipation. Particularly, dedicated applications, share common features/constraints such as
portability, area, speed and power dissipation. However, these systems are relatively complex,
they require expertise in both hardware, software and algorithmic and thus involve
multidisciplinary teams. The major problems are:
- Complexity and size of the project.
- Hardware and software partitioning between different tasks that execute the algorithm.
- IP cores must use a standard interface.
- The design effort is moved from the functionality of the circuit to communication
between different IP cores in the SOC.
- Test of the whole SOC.
- Power management
- Physical and technological effects
In order to deal with these problems, designers need new concepts to handle the increased
complexity inherent in these large chips. One such emerging concept is the application of design
reuse to VOIP design.
In [8] the reuse concept has been applied in VOIP but in a software context. In [3-7] the SOC
design of VOIP are presented. At our knowledge, theses chips are considered as intellectual
property and thus there is no information how they are designed, which methodology and which
platforms are used?
In [9], we presented hardware architecture of the VOIP Gateway. In this paper, we present an
extended version in which guidelines to develop the reuse concept are outlined. Our motivation
behind this work is justified by the following arguments: first, VOIP based System on chip (SOC)
implementation is an emerging research and development area, where innovative applications can
be implemented. Second, these systems are very complex and due to time to market pressure,
there is a need to built platforms that help the designer to explore with different architectural
possibilities and choose the circuit that best correspond to the specifications. Third, we aim to
develop in hardware, design, methods and tools that are used in software like the MATLAB tool
for VOIP implementation.
Section 2 gives basic concepts of design reuse, section 3 deals with the proposed design
methodology. In section 4, the SOC gateway architecture is presented. In section 5, synthesis and
implementation results are presented and finally a conclusion.
3. International Journal on Soft Computing (IJSC) Vol.4, No.4, November 2013
23
2. BASIC CONCEPTS
2.1 THE DESIGN REUSE CONCEPT
Design reuse presents specific challenges to the designer. But to be reusable, a design must first
be usable: a robust and correct design. To achieve this goal, the design must fulfill the following
requirements: well coded, well commented, well verified and well documented. In addition to the
above requirements, there are some additional requirements for a design to be reused. These
requirements are published in the Reuse Methodology Manual (RMM) [10]:
- Designed to solve a general problem: configuration
- Designed for use in multiple technologies: technology independence
- Designed for simulation with a variety of simulators: portability
- Designed with standard-based interfaces
- Verified independently of the chip in which it will be used
- Verified to a high level of confidence
- Fully documented
From the above requirements, it appears that to move from a simple design to a reusable design,
an additional design effort is required.
Reuse, as a solution to the design productivity gap, has created a new branch in the
semiconductors industry, called IP reuse business [11] as shown in Fig. 1
There are three major players: IP providers/developers, IP integrators and IP tool developers.
- IP providers/developers: They supply libraries of IP components, including hard cores,
soft cores and firm cores. The designer must plan design to supply an IP than can be
reused. Thus, the term design for reuse (DFR) is used. Aspects of documentations,
verification, quality assurance, standardization, maintenance, etc. are issues that must be
solved in the DFR strategy.
- IP integrators: are typically designers/users of IPs supplied by IP providers. The term
design with reuse (DWR) is used, because the design is done with predesigned and
preverified IPs. The major issues that face IP integrators are exploration and exploitation
of provided IPs, integration of theses IPs in a new design and a methodology of reuse and
IP DEVELOPERS
IP INTEGRATORS
(DWR)
IP PROVIDERS
(DFR)
IP BUSINESS
Figure 1. IP Business Model
4. International Journal on Soft Computing (IJSC) Vol.4, No.4, November 2013
24
standardization of the process of IP acquisition.• Tools developers: supply design tools to
IP providers and integrators.
- The Business model is related to IP distribution service and trade.
2.2 VOICE OVER IP (VOIP)
Voice over IP had its starts in February 1995 when a manufacturer started marketing software that
enabled a conventional computer equipped with a sound card, microphone and loudspeaker to
phone another PC via the internet. Initially, the voice quality achieved was unsatisfactory but the
principle behind it drew a great attention of public, thus the first area of application for VoIP: PC-
to-PC was established. Subsequent to this introduction a number of manufacturers concentrated
on developing similar software and consequently raised the question of compatibility among
different systems. In 1996, the International Telecommunication Union responded by developing
the H.323 standard. Afterwards, the focus was the possibility of placing long distance calls using
voice over IP known as toll bypass; however this required setting up a connection between the
telephone network (PSTN) and the data network, a task performed by so called Gateways [12].
The result has been additional application for VoIP including: PC-to-phone, Phone-to-PC and,
when two gateways are used, Phone- to - phone communication. This last option was the catalyst
in the establishment of a new provider group named ITSP (Internet Telephone ServiceProvider)
that permits telephony over IP within the provider network using prepaid cards. To date, VoIP
refers to the ability to transfer data and voice and also video on the single network. Figure 2
illustrates the basic operating principle of VoIP.
The human voice initially generates an analog signal.This signal is converted into a bit stream by
an Analog/Digital (A/D) converter and then submitted to a multiple compression process. The
Voice frames are integrated into a voice packet. First RTP (Real time protocol) packet with a 12
address byte header is created. Then an 8-byte UDP packet with the source and destination
address is added. Finally, a 20 byte IP header containing source and destination gateway IP
address is added.The packet is sent through the internet where routers ands switches examine the
destination address. When the destination receives the packet, the packet goes through the reverse
process for playback. A minimal VoIP implementation requires two functionalities. First, it
should be able to connect to other VoIP phones and, second, voice data should be carried by the
Internet. The first requirement is fulfilled by using signaling. The second one is achieved by
using speech coding algorithms.
Figure 2 Principle of VoIP
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25
The speech coding allows the reduction of transmission speech signal and communication
channels to a limited bandwidth. The bandwidth of a transmission must be minimized while
maintaining the quality of voice signal. Most codecs are algorithms, used to reduce the bit rate of
speech data incredibly, while maintaining the voice quality. The most commonly used codecs in
VOIP systems are: G.711PCM [14], G.726 [15], ADPCM, G.729 LD-CELP [16], and G.
729/G.729a CS-ACELP [17]. PCM and ADPCM belong to the family of so called waveform
codecs. These codec simply analyze the input signal without any knowledge of the source. Most
of these codecs work in time domain, like PCM. These codecs offer high quality speech at a low
computational complexity. But if we try to get the bit rate below 16 kbps the quality decreases
tremendously. To get the bit rate really down another approach is necessary. Source coders need
to know the characteristics about the input being coded. Out of these characteristics a model of
the source is made. When an input is encoded the source coder tries to extract the exact
parameters of this model from the input. Then these parameters and a two state excitation is
transmitted. These codec can simply transport the pure informational content of a speech sample
and not the voice itself. Their big advantage is that they operate with bit rates as low as 2.4 kbit/s.
Hybrid codec try to combine the advantages of waveform codec, which is good quality, with the
advantages of the source codec that is low bit rate. To get the best excitation signal all possible
waveforms are tested and the one with the least error is then chosen. This involves a very high
computational complexity for every analysis frame. The low bit rate codecs usually involve a
high computational complexity and a delay and the waveform codecs have the advantage of low
delay and excellent quality. In Table 1 there is an overview of the quality of the different codecs
according to the Mean Opinion Score. This score is derived from a large number of listeners who
rated the quality of the played sample with a score from excellent (5) to bad (1). It should be
understood that the various coding methods vary in the levels of complexity, delay characteristics
and quality.
Table1. Characteristics of the most coding algorithms
Coding
algorithm
Bandwith (Kbps) Algorithmic Delay (ms)
Complexity
(MIPS)
MOS
G.711 PCM 64 0.125 0 4.3
G.726 ADPCM 16-40 0.125 6.5 2.0-4.3
G.728 LD-CELP 16 0.625 37.5 4.1
G7.29 CSACELP 8 10 17 3.4
3. VOIP System on chip DESIGN METHODOLOGY BASED ON DFR AND
DWR
In this section a design methodology is proposed based on the design for reuse (DFR) and the
design with reuse (DWR) concepts. To achieve this goal some design rules must be applied to the
code of the VOIP architecture according to the Reuse Methodology Manual (RMM).
3.1 APPLICATION OF THE RMM DESIGN RULES
As shown in section 2, to be reusable, the VOIP hardware design must fulfil the following rules
which are based on the RMM:
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3.1.1 CONFIGURATION
Configuration can be obtained by exploiting the programmability nature of FPGA devices, by
integrating different descriptions of codec algorithms, communication networks and processors
for the same architecture.
3.1.2 TECHNOLOGY INDEPENDENCE
This rule can be satisfied by using a high level description language such as the VHDL [18],
VERILOG [19] or System-C [20] for the VOIP architecture description.
3.1.3 PORTABILITY
In order to satisfy this rule, the generated ANN code must be portable for synthesis and
simulation. ISE foundation [21], CADENCE [22] and ModelSim [23] are the tools used for
synthesis and simulation respectively. This choice is justified by the wide use of these tools and
by their availability at our level.
3.1.4 DESIGNED WITH STANDARD INTERFACES
The IEEE standard interfaces signals declarations are used to achieve this rule.
3.1.5 VERIFIED WITH A HIGH LEVEL OF CONFIDENCE
To this end, a prototype must be realised in an FPGA prototyping board.
3.1.6 ENTIRELY DOCUMENTED IN TERMS OF APPLICATION AND RESTRICTIONS
To achieve this goal, VOIP project documentation must be delivered at the end of the project.
3.2 THE PROPOSED DESIGN REUSE METHODOLOGY
The proposed design reuse strategy is shown in Figure 3 as a process of Flow. In this figure, the
methodology is based on a top-down design approach in which the user/designer is guided step by
step in the design process of the VOIP gateway architecture. First, the user/designer is asked to
choose the codec compression algorithm to be implemented and the number of lines that can be
implemented. The compression algorithms that can be supported are the PCM G711 with a-law
and µ-law, the G722 and G728 audio codec. The number of lines is related to the number of
Ethernet that can be incorporated. In the next step, a VERILOG code description of the SOC
gateway architecture is generated. Before synthesis, functional simulation is required. Then, the
VERILOG code is passed through a synthesis tool that performs Register transfer level (RTL)
synthesis and optimization according to the target FPGA device family and under speed/area
constraints. The result is a file ready for placement and routing. At this level, verification is also
required before power analysis and then downloading the programming file into the FPGA
prototyping board. To help the user/designer, documentation is available at each level of the
design. It is to be mentioned that all the cores used in this design are downloaded from the
OpenCores web site and are free of charge [24].
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As shown in Figure In our approach the design reuse methodology is exploited at two different
levels. First, by using the cores of OpenCores library, we exploit the Design with Reuse concept
(DWR). Second, by creating a generic SOC gateway architecture, in which the cores can be
modified, we can say that SOC-gateway is designed for Reuse (DFR).
4. THE VOIP ARCHITECTURE
Figure 4 shows the proposed gateway architecture which is mainly based on theOpenRisc
OR1200_V3 processor, a debug unit for debugging purpose, an Universal Asynchronous
Receiver Transmitter (UART), an audio codec for voice compression, an AC97 audio controller,a
standard MAC/Ethernet, a flash memory for internal boot, a DDR2 memory for embedded
application and other interfaces for LCD display, keypad, Speaker and handsets. The cores are
connected through the WISHBONE bus interface.
Figure 5 shows the OR1200-V3 internal architecture and Figure 6 shows the WISHBONE bus
interconnection schema.
Graphical interface
· Type of codec algorithm
· Number of lines
VERILOG RTL Code
generation
RTL Synthesis
· Place & Root
· Power estimation
Generate Programming File
Library of parametric and
reusable cores from
Opencores
Simulation
Design with
Reuse
(DWR)
Design for Reuse (DFR)
FPGAPrototyping
board
Figure 3 Proposed design reuse methodology
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Debug
Interface
WISHBONE Bus System & Arbiter
Ethernet
10/100
Flash
Memory
PS2/
keyboard
AUDIO
controller
UART
16550
Console interface Audio serial
interface
JTAG
I2C SPI
Consol interface
DDR2
256 MByte
OPENRISC
1200-V3
G7xx
compression
Figure 5. OR1200 Architecture
As shown in Figure 5, The OpenRisc 1200-V3 is a 32/64-bit RISC synthesizable processor with
Harvard micro-architecture, 5 stage pipeline. It is developed and managed by a team of developers
at OpenCores. An overview of the OpenRisc 1200-V3 architecture is illustrated in figure 5. The
new features compared to the older version is that it support the new implementation of IEEE 754
compliant single precision FPU, also new instruction/data register MMU is added for embedded
Linux distribution.
The WISHBONE bus interface uses a MASTER/SLAVE architecture. Some signals are specific
to the master core, others to the slave one and there are common signals shared between the
master and the slave. The MASTER interface could be on a microprocessor IP core, and the
SLAVE interface could be on a serial I/O port (Figure 6).
Figure 4 The VOIP Gateway general architecture
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Figure 6. WISHBONE interconnect schema
In this architecture the WISHBONE uses the shared bus interconnection schema, thus a
MASTER initiates a bus cycle to a target SLAVE. The target SLAVE then participates in one or
more bus cycles with the MASTER. An arbiter determines when a MASTER may gain access to
the shared bus. The main advantage to this technique is that shared interconnection systems are
relatively compact. Generally, it requires fewer logic gates and routing resources than other
configurations such as the cross bar switch configuration. It is to be noticed that the wishbone bus
can supports up to 8 masters and 16 slaves as well as 4 priority level. This characteristic can be
explored to add more Ethernets and codec cores to boost the capacity and scalability of the
gateway.
5. SYNTHESIS AND IMPLEMENTATION RESULTS
Our first implementation is a SOC that integrates the G711 algorithm, one MAC/Ethernet, the
Openrisc-V3 processor, a debug unit, the UART circuit, the AC97 audio controller, a flash
memory, a DDR2, I2C, SPI and PS2 keyboard.de. We performed synthesis and physical
implementation using the Xilinx ISE design tool [19]. The whole architecture is mapped into the
Xilinx FPGA VIRTEX 5 ML501 FPGA. Table 2 shows the synthesis results. Mainly, the SOC
occupies 52% of the FPGA in term of slice LUT, 42% of IOBs, 60% of bloc memory, 8% of
integrated DSP and 16% of PLLs. Table 3 shows the power dissipation in each FPGA module.
Mainly, the total estimated power is 4.3 Watt. It is to be mentioned that IOs blocs and leakage
currents constitute the major source of power consumption. Another source of power
consumption is the PLL module. In the other hand the DSP module consumption is zero. This is
because the DSP integrates only few logics and is not really well exploited in this architecture.
Figure 7 shows the final FPSOC layout. It is clear that for other algorithm configurations, if more
Ethernet cores are integrated, a migration to another FPGA device with more resources is
necessary. Figure 8 shows the VOIP ASIC layout using the Faraday 65nm technology.
Table 2 Synthesis results
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Table 3 Power estimation
On Chip Power
Clocks 0.291
Logic 0.006
Signals 0.011
BRAMs 0.015
DSPs 0.000
PLL 0.112
DCMs 0.094
IOs 3.209
Leakage 0.590
Total 4.328
6. CONCLUSION
We have presented a design reuse approach for hardware implementation of complex
architectures such as VOIP systems. By adopting a design reuse methodology, we demonstrated
that the architecture is reconfigurable and scalable. Key features of this architecture are: the
integration of different kind of compression algorithms, the possibility to add or remove the
number of lines which related to the MAC/Ehernet circuit and the final RTL code can be mapped
into FPGA or ASIC devices. This work is still under progress especially regarding the ASIC. As
future work, we aim first to optimize the architecture to get better performances. Also, we project
to enrich the library by adding other processors and cores.