Design Or Procure A Computer System Based On Business Needs

Design or procure a computer system based on business needs

Develop a short proposal to design or acquire a computer system tailored to specific business requirements. Select appropriate components, including an optimal power supply, CPU, and RAM, that meet the client's needs for performance and reliability. Your proposal should detail the rationale for choosing each part based on compatibility, performance benchmarks, and future expansion. Consider factors such as motherboard specifications, processor speed, memory capacity, storage options, graphics capabilities, and power requirements. Ensure your choices align with the specified hardware standards and tape into industry best practices for building a reliable and efficient computer system, including safety measures during assembly.

Sample Paper For Above instruction

In designing a computer system tailored to a business's needs, it is essential to choose components that balance performance, reliability, and future scalability. The proposed system will focus on delivering high processing power, ample memory, fast storage, and reliable graphics capabilities. This detailed proposal will justify each component choice, considering compatibility with the specified motherboard, the demands of business applications, and industry standards for hardware procurement and assembly.

Introduction

The modern business environment requires computing systems that can handle intensive multitasking, data processing, and high-speed data transfer. To meet these needs, selecting the right components is crucial, not only for performance but also for ensuring compatibility and ease of future upgrades. This proposal outlines the selection process for key components, including the motherboard, power supply, CPU, RAM, hard drive, optical drive, and graphics card, based on the provided specifications and industry best practices.

Motherboard Selection

The foundation of the system is the motherboard, which must support the selected CPU and other components. The ASUS P6X58-E PRO motherboard is chosen because it contains the Socket 1366, supporting high-performance processors and up to 48GB of DDR3 RAM. Its compatibility with multiple PCIe slots and support for multiple storage interfaces makes it suitable for business applications requiring expansion and high-speed data operations. Additionally, its support for DDR3 memory ensures compatibility with the chosen RAM modules and future-proofing for potential upgrades.

Processor Choice

The processor selected for this build is the Intel Core i7-990x Extreme Edition, offering superior processing capabilities suitable for demanding business applications. This 64-bit, six-core CPU operates at 3.46 GHz and includes 12MB of cache, making it adept at multitasking, data analysis, and running resource-intensive applications. The higher processing speed and multi-core architecture ensure minimal bottlenecks, enhancing overall productivity. The choice aligns with the motherboard's socket compatibility and performance benchmarks for enterprise-level processors.

Memory (RAM) Considerations

Memory is critical for efficient multitasking and application performance. Based on the motherboard’s support for up to 48GB of DDR3 RAM, the system will include six 8GB DDR3 modules, totaling 48GB. Using this capacity maximizes the system's ability to handle large datasets and multiple simultaneous applications. It is important to install the RAM in specific slots recommended for dual or triple channel configurations, which improves speed and stability. A 64-bit version of Windows is necessary to utilize the entire RAM capacity, preventing limitations inherent with 32-bit systems.

Storage Solutions

The selected hard drive is the Samsung 850 Pro, renowned for its high read/write speeds exceeding 520 MB/s, ensuring rapid data access and transfer. Storage capacity can be chosen based on business needs, whether for large data repositories, backups, or performance-critical applications. Solid-state drives (SSDs) like the Samsung 850 Pro provide reliable, high-speed storage, significantly reducing system load times and enhancing overall efficiency.

Graphics Card Selection

The graphics card GIGABYTE Ultra Durable 2, equipped with 2GB DDR3 memory clocked at 1100 MHz, offers excellent visual performance for business applications involving multimedia, data visualization, or design work. Its support for DVI-I, HDMI, and PCIe interfaces ensures compatibility with standard monitors and peripherals. The choice of this card balances performance and cost-effectiveness, supporting high-resolution displays and smooth graphic rendering necessary for productivity tasks.

Optical Drive and Power Supply

A high-speed SATA optical drive will be included to facilitate quick reading and writing of CDs and DVDs, supporting business needs for data distribution and media management. The power supply selected is a Corsair HXi modular unit capable of providing stable, efficient power delivery to all components. It supports the motherboard’s 20+4 pin and PCIe power connectors, ensuring sufficient wattage and modular flexibility to reduce cable clutter and improve airflow within the case.

Conclusion

In conclusion, the proposed system leverages high-performance components that are compatible with each other and suitable for demanding business applications. The selection process emphasizes compatibility, scalability, and speed, ensuring the system can meet current needs and adapt to future requirements. This infrastructure not only supports high productivity but also adheres to industry safety standards during assembly, including the use of anti-static grounding and proper cable management to prevent hardware damage.

References

• ASUS. (2010). P6X58-E PRO motherboard specifications. ASUS Official Website.
• Intel. (2011). Intel Core i7-990x Extreme Edition processor specifications. Intel Technical Data.
• Samsung. (2014). 850 Pro SSD product documentation. Samsung Electronics.
• GIGABYTE. (2011). Ultra Durable 2 graphics card specifications. GIGABYTE Official Site.
• Corsair. (2014). HXi Modular Power Supply Data Sheet. Corsair Corporation.
• Seagate. (2010). Business Storage Solutions. Seagate Technology.
• Microsoft. (2012). Windows 7 System Requirements and Upgrade Path. Microsoft Support.
• MSI. (2013). Best Practices for Hardware Assembly and Safety. MSI Expert Guide.
• Tom's Hardware. (2015). High-Performance PC Build Guides. Tom's Hardware Analysis.
• AnandTech. (2014). SSD vs HDD: Performance and Cost Analysis. AnandTech Reviews.