Introduction In the digital programmable world, FPGA and ASIC play a vital role for complex designs implementation. In today’s world most of the applications uses FPGA to process the data in the real time and prototyping. The demand for FPGA is increasing because of its performance and reprogramability. The basic building block of FPGA is Logic Block(Configuration Logic Block or Versatile). Many applications, vendors claims the utilization of FPGA or FPGA density in terms of gate counts. Generated FPGA
presented similar announcement. Also, another CPU giant AMD has been suffered from design and manufacture defect in their microprocessors for a long time. The traditional paradigm for computer hardware is to design the specific circuit including the gates, wires and the way they connected, and built it perfectly. Perfection of the components is the baseline of modern computer hardware--a single design or manufacture defect can cause the entire system crashed. It is thought that with the chip's
Hardware description languages have been used for a long time and the primary hardware description languages in use are Verilog and VHDL. VHDL is a VHSIC Hardware Description Language and VHSIC is a very high speed integrated circuit gate level through system design and verification. Verilog is primarily targeted for design of application specific integrated circuits. Hardware description languages are used for hardware systems because of their parallelism. This parallelism results in increased speed
to extend my field of expertise beyond the world of programming. I could sense that my proficiency in programming was not enough to satisfy my hunger to know more and that my passion was always in electronics. I learnt the ways in which programming could be used in electronics related concepts, such as microprocessors and embedded systems. So, I decided to pursue a career that would make good use of my programming skills and at the same time improve my knowledge in the electronics field. This decision
resulted in higher static power in the forms of sub-threshold leakage and gate leakage. Heating solutions for devices with high power dissipation is expensive. If FPGA’s are to be used in portable devices, power consumption needs to be reduced. -powered applications, high power consumption may prohibit the use of FPGA altogether. Consequently, solutions for reducing FPGA power are needed. In this work, I propose a programmable dual-VDD architecture in which the supply voltage of the logic blocks and
Process tuning strategy is to minimize the average power consumption of multi-core processors that use the DVFS and CG techniques, while providing the same maximum performance. By scaling the supply voltage (VDD), maximum operating frequency is increased to enhance the performance of a multi core processor. However, increasing VDD is limited by the power and thermal constraints. These constraints can be determined by capacity of supply voltage regulators and cooling solutions in the computing platforms
these algorithms then there came further modification for them are as array multiplier and parallel multiplier then these all have became more enhance and there came other algorithms. There multiplier can be divided on various types on the basis of data processing they are classified as serial multiplier parallel multiplier and serial-parallel multiplier .In parallel multipliers, there are two main classifications. They are array and tree multipliers. C.S. Wallace proposed a tree multiplier architecture
This paper presents the study of non-linear dynamic of cardiac excitation based on Luo Rudy Phase I (LR-I) model towards numerical solutions of ordinary differential equations (ODEs) responsible for cardiac excitation on FPGA. As computational modeling needs vast of simulation time, a real-time hardware implementation using FPGA could be the solution as it provides high configurability and performance. For rapid prototyping, the MATLAB Simulink offers a link with the FPGA which is an HDL Coder that
applications in many areas including planetary exploration, undersea salvage, operations in remote and hazardous conditions. Application of the human haptic interaction, multi sensory perception, action and multimodal feedback can be applied in the fields of education, rehabilitation, medicine, computer aided design, skill training, computer games, driver controls, simulation and visualization.
previous step's answer. 2 9 4 8 1392 4*2+5=8+5=13 Ans is 29*48=1392. 2*2 Urdhva-Tiryagbhyam Multiplier using reversible gate for binary number: q0=a0*b0 q1=(a1*b0)xor(a0*b1) q2=(a0*a1bo*b1)xor(a1*b1)q3=a0*a1*b0*b1. For the above expression, logic implementation needs four peres gates and anly ane Feynman gate. Following fig.5 shows 2*2 reversible logic multiplier implantation. C. A 4*4 Urdhva-Tiryagbhyam
mid-point of the revenue range is expected to be $ 14.1 billion with a gross margin of around 62 % including the effect of an extra work week and the recently completed acquisition of Altera Corporation ("Altera"), a leading provider of field-programmable gate array (FPGA) technology. For the full year, the revenue growth is expected to be in the mid-to-high single digits relative to 2015 with a gross margin of 63 %.
Abstract: The number of video games involving human computer interaction have increased significantly. When a user interacts with a machine through an interface, a feedback is generated which is either displayed as output or stored for further processing. Decision making by machines can involve large number of computations and simulations so that the computer's move is beneficent to its own game. This paper provides definitions of major areas of Artificial Intelligence and Computational Intelligence
TABLE OF CONTENTS INTRODUCTION: 2 TRANSACTIONS: 2 BITCOIN MINING: 4 PRIVACY: 5 RECLAIMING DISK SPACE: 5 Combining & Splitting Value: 6 Bitcoin Security: 6 Technological Advancements: 7 Challenges for Bitcoin: 7 Conclusion: 8 BITCOIN INTRODUCTION: Bitcoin is crypto currency which is gaining popularity in recent times. Bitcoin facilitates peer-to-peer transfer of currency. It does not involve any intermediate agents or parties and hence there
Intelligent Memory Professor’s comment: Not only does this research paper reflect an obvious understanding of the complexities of the technology under review, it does so in remarkably clear prose. The student obviously took to heart one of the central tenets of my course, that technical material aimed at a technical audience can be clearly written. Abstract The growing processor-memory performance gap creates a bottleneck in the system; the memory system cannot supply enough data to keep
History of the PC “If one thinks about it, it is truly remarkable how far the technology has advanced since the first digital computer was introduced in 1946. The ENIAC (Electronic Numerical Integrator and Calculator) was designed and built at the University of Pennsylvania. It weighed 30-tons and took up 1500 square feet of floor space. The first computer developed in Europe was the EDSAC (Electronic Delay-Storage Automatic Computer). This machine was built at Cambridge University in 1949.