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ISSN: 2321-9653
Estd : 2013

Ijraset Journal For Research in Applied Science and Engineering Technology

Battery Drain Algorithm in Software Hardware Interface Due to Transfer of Data

Authors: Joseph Kewin Nithin

DOI Link: https://doi.org/10.22214/ijraset.2025.74848

Certificate: View Certificate

Abstract

The battery drains from the computer because of excessive power supply that affects the motherboard and changes the magnitude of binaries inside the central processing unit and transfers to the output. The output can be of a program that calculates numbers or the answer to the geo-location questions etc. The binaries are one after another evenly in the right order but the time taken to get the output changes drastically and results in binaries being large in magnitude, for example a computer cannot calculate the atomic particles in a room with the equation. The software hardware is not sufficient to calculate massive amounts because there are multiple resources and programs and electronics running at the time each having its own count of interlinking questions and answers and commands and deployments.

Introduction

The text explores the relationship between power consumption, data transfer, and processing in computers. Batteries supply electric charge to the CPU, which moves data between RAM and storage and performs computations. Each data transfer consumes power, and errors in processing increase power loss over time. Hardware failures, slow data transfer, and system crashes can cause inconsistent outputs, higher energy use, and system instability. The study notes that faster data transfer in modern computers reduces power consumption and startup time, while older systems were less efficient. Overall, power is wasted whenever data is processed incorrectly, highlighting inefficiencies in both hardware and software operations.

Conclusion

The hardware stores temporary files in a memory, which is essential for diagnosing system crashes. However, the operating system\'s capacity to completely retrieve these temporary files and solve the underlying problems is often limited. Modern computers achieve faster startups and more efficient power utilization illustrates the principles of my battery drain algorithm. In the 1990s, by comparison, even minimal calculations required large, power-hungry computers. Battery charges and transfer electric charge to chip, within the CPU, binary data is represented by electrical signals. The processing and manipulation of these signals result in new output being sent to other components. The processing chip moves data between the hard drive and RAM, performs various operations on it, and the data must conform to the calculation limits of both the hardware and software as per the computer architecture and hence proves my evidence on incorrect calculation, resulting in drain in battery, due to unnecessary data.

References

[1] Science Direct “Linux system”, URL: https://www.sciencedirect.com/topics/computer-science/linux-system [retrieved 28 October 2025].

IJRASET74848

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Paper Id : IJRASET74848

Publish Date : 2025-10-29

ISSN : 2321-9653

Publisher Name : IJRASET

DOI Link : Click Here

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