Mukesh P. Mahajan scite author profile

Nowadays application specific soft processor cores are gaining importance for FPGA based embedded application in which user can configure the processor as per requirement. The architectural simplicity of ARM processors makes them suitable for low power applications. Hardware description languages (HDLs) are commonly used to construct hardware system. FPGA provides reconfigurable platform, so reuse of the design is a common practice to improve the productivity nowadays. In this paper the data processing instructions of ARM processor are implemented using Very high speed integrated circuit Hardware Description Language (VHDL) language and verified by applying test bench on Xilinx's Spartan III based FPGA.KEYWORDS: ARM, VHDL, FPGA, data processing instructions. I.INTRODUCTIONThe Arm processor has large uniform register file, load/store architecture, where data-processing operations only operate on register contents, not directly on memory contents. Simple addressing modes, with all load/store addresses being determined from register contents and instruction fields only Uniform and fixed-length instruction fields to simplify instruction decode [5]. The ARM processor has been specifically designed to be small to reduce power consumption and extend battery operation.The ARM architecture gives Control over both Arithmetic Logic Unit (ALU) and shifter in every data-processing instruction to maximize the use of an ALU and a shifter Load and Store multiple to maximize data throughput. These enhancements to a basic RISC architecture allow ARM processors to achieve a good balance of high performance, small code size and low power consumption.[4] The FPGA based design reduces time to market & adds design flexibility and adaptability with optimal device utilization and conserving both less board space and system power, which is often not the possible in every case of ASIC chips. [3] In following this line of thought, this paper summarizes our recent progress in developing VHDL soft-core of ARM processor on Xilinx's Spartan III based FPGA. An advantage of implementing a full-featured ARM processor soft-core on FPGA is complete hardware customization while implementing various applications. II. RELATED WORKThe hardware debugging technology is integrated in ARM processor so that programmers can view what is happening during execution of code by processor. With this programmers can resolve issues very quickly and reduce time to market and overall development cost. The ARM is not pure RISC architecture because of various limitations of applications in embedded system. Nowadays Speed is not major constraint but power consumption and cost effective solutions are also playing vital role [1] [2]. In [1] ARM soft processor core were implemented in the context of FPGA based multiprocessor based SOC applications. All the 32-bit instructions were implemented with single cycle data path and random logic based instruction decoder. The instructions of Data processing, Arithmetic, Branch instructions, Logical and compare were implem...

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Home Automation Using Bluetooth

Mahajan

Dubey²,

Desai³

et al. 2020

IJSRSET

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This paper reviews basically about Bluetooth based home automation system. It is controlled by PIC microcontroller. Home automation can be defined as the ability to perform tasks automatically and monitor or change status remotely. These include tasks such as turning off lights in the room, locking doors via smartphone, automate air condition systems and appliances which help in the kitchen. Now a days several wireless devices are available such as Bluetooth, Zigbee and GSM. Since Bluetooth is low in cost than the other two and hence is used more. In this paper we have described the methods of automating different home appliances using Bluetooth and pic microcontroller. Different sensors are involved in this system to advance and make it smarter. Sensors such as temperature sensor, liquid sensors, humidity sensor etc. can be used.

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Tongue Operated Smart Environment for Paralytic People

Mahajan¹,

Dua²,

Dudhat³

et al. 2014

IJIRCCE

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ABSTRACT:The "tongue drive" system is a tongue operated assistive technology developed for people with severe disability to control their environment. The tongue is considered an excellent appendage in severely disabled people for operating an assistive device. Tongue drive consists of an magnet reed relays outside of the teeth to measure the magnetic field generated by a small permanent magnet secured on the tongue. The sensor signals are transmitted to an encoder which wirelessly transmit signal and processed to display the needs of paralytic person. The tongue is considered an excellent attachment in severely disabled people for operating an assistive device. This paper presents our recent progress to the development of tongue operated smart environment for paralytic people.

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Mukesh P. Mahajan

Smart Phone Controlled Robot Using ATMEGA328 Microcontroller

FPGA Implementation of ARM Processor

Home Automation Using Bluetooth

Tongue Operated Smart Environment for Paralytic People

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