Device Driver

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Logo Designing: An Essential Marketing Tool

January 12, 2021

Logo Designing is a unique art that is done by some of the creative people to promote a business or product. The logo design forms the identity of the business and helps in creating brand awareness. Logo Designing is an art and is carried out in many forms like letterheads, business cards, banners and other promotional material. The professionals associated with Logo Designing try to create appealing and striking logo designs that are able to attract maximum customers and at the same time remain highly visible in the marketing campaigns. Logo Designing is an art that is an essential part of business identity development. Businesses across the UK offer professional services for professional logo designing in Coimbatore. Logo Designing Companies in Coimbatore has a dedicated team of experienced professionals who work towards developing brand awareness in the market. They provide complete services including creative logo designing, web promotion, corporate identity designing and ecommerc

Device driver

November 21, 2020

In computing, a device driver is a computer program that operates or controls a particular type of device that is attached to a computer. A driver provides a software interface to hardware devices, enabling operating systems and other computer programs to access hardware functions without needing to know precise details about the hardware being used. A driver communicates with the device through the computer bus or communications subsystem to which the hardware connects. When a calling program invokes a routine in the driver, the driver issues commands to the device. Once the device sends data back to the driver, the driver may invoke routines in the original calling program. Drivers are hardware dependent and operating-system-specific. They usually provide the interrupt handling required for any necessary asynchronous time-dependent hardware interface.

Purpose

November 21, 2020

The main purpose of device drivers is to provide abstraction by acting as a translator between a hardware device and the applications or operating systems that use it. Programmers can write higher-level application code independently of whatever specific hardware the end-user is using. For example, a high-level application for interacting with a serial port may simply have two functions for "send data" and "receive data". At a lower level, a device driver implementing these functions would communicate to the particular serial port controller installed on a user's computer. The commands needed to control a 16550 UART are much different from the commands needed to control an FTDI serial port converter, but each hardware-specific device driver abstracts these details into the same (or similar) software interface.

Development

November 21, 2020

Writing a device driver requires an in-depth understanding of how the hardware and the software works for a given platform function. Because drivers require low-level access to hardware functions in order to operate, drivers typically operate in a highly privileged environment and can cause system operational issues if something goes wrong. In contrast, most user-level software on modern operating systems can be stopped without greatly affecting the rest of the system. Even drivers executing in user mode can crash a system if the device is erroneously programmed. These factors make it more difficult and dangerous to diagnose problems. The task of writing drivers thus usually falls to software engineers or computer engineers who work for hardware-development companies. This is because they have better information than most outsiders about the design of their hardware. Moreover, it was traditionally considered in the hardware manufacturer's interest to guarantee that their clients ca

Kernel mode vs. user mode

November 21, 2020

Device drivers, particularly on modernupdate Microsoft Windows platforms, can run in kernel-mode (Ring 0 on x86 CPUs) or in user-mode (Ring 3 on x86 CPUs). The primary benefit of running a driver in user mode is improved stability, since a poorly written user-mode device driver cannot crash the system by overwriting kernel memory. On the other hand, user/kernel-mode transitions usually impose a considerable performance overhead, thus making kernel-mode drivers preferred for low-latency networking. Kernel space can be accessed by user module only through the use of system calls. End user programs like the UNIX shell or other GUI-based applications are part of user space. These applications interact with hardware through kernel supported functions.

Applications

November 21, 2020

Because of the diversity of modernupdate hardware and operating systems, drivers operate in many different environments. Drivers may interface with: Printers Video adapters Network cards Sound cards Local buses of various sorts—in particular, for bus mastering on modern systems Low-bandwidth I/O buses of various sorts (for pointing devices such as mice, keyboards, etc.) Computer storage devices such as hard disk, CD-ROM, and floppy disk buses (ATA, SATA, SCSI, SAS) Implementing support for different file systems Image scanners Digital cameras Common levels of abstraction for device drivers include: For hardware: Interfacing directly Writing to or reading from a device control register Using some higher-level interface (e.g. Video BIOS) Using another lower-level device driver (e.g. file system drivers using disk drivers) Simulating work with hardware, while doing something entirely different For software: Allowing the operating system direct access to hardware resources I

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Device Driver

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Logo Designing: An Essential Marketing Tool

Device driver

Purpose

Development

Kernel mode vs. user mode

Applications