What’s the Difference Between a CPU and a GPU?

The CPU (central processing unit) has often been called the brains of the PC. But increasingly, that brain is being enhanced by another part of the PC – the GPU (graphics processing unit), which is its soul.

Cpu-vs-gpu All PCs have chips that render the display images to monitors. But not all these chips are created equal. Intel’s integrated graphics controller provides basic graphics that can display only productivity applications like Microsoft PowerPoint, low-resolution video and basic games.

The GPU is in a class by itself – it goes far beyond basic graphics controller functions, and is a programmable and powerful computational device in its own right.


The First GPU

The first company to develop the GPU is NVIDIA Inc. The GeForce 256 GPU was capable of billions of calculations per second, can process a minimum of 10 million polygons per second, and has over 22 million transistors, compared to the 9 million found on the Pentium III. Its workstation version called the Quadro, designed for CAD applications, can process over 200 billion operations a second and deliver up to 17 million triangles per second.

HISTORY OF GPU COMPUTING
Graphics chips started as fixed-function graphics pipelines. Over the years, these graphics chips became increasingly programmable, which led NVIDIA to introduce the first GPU. In the 1999-2000 timeframe, computer scientists, along with researchers in fields such as medical imaging and electromagnetics, started using GPUs to accelerate a range of scientific applications. This was the advent of the movement called GPGPU, or General Purpose GPU computing.

The challenge was that GPGPU required the use of graphics programming languages like OpenGL and Cg to program the GPU. Developers had to make their scientific applications look like graphics applications and map them into problems that drew triangles and polygons. This limited the accessibility to the tremendous performance of GPUs for science.

NVIDIA realized the potential of bringing this performance to the larger scientific community and invested in modifying the GPU to make it fully programmable for scientific applications. Plus, it added support for high-level languages like C, C++, and Fortran. This led to the CUDA parallel computing platform for the GPU.


GPU-Accelerated Computing Goes Mainstream
GPU-accelerated computing has now grown into a mainstream movement supported by the latest operating systems from Apple (with OpenCL) and Microsoft (using DirectCompute). The reason for the wide and mainstream acceptance is that the GPU is a computational powerhouse, and its capabilities are growing faster than those of the x86 CPU.

In today’s PC, the GPU can now take on many multimedia tasks, such as accelerating Adobe Flash video, transcoding (translating) video between different formats, image recognition, virus pattern matching and others. More and more, the really hard problems to solve are those that have an inherent parallel nature – video processing, image analysis, signal processing.


The combination of a CPU with a GPU can deliver the best value of system performance, price, and power.

What’s the Difference Between a CPU and a GPU?

The CPU (central processing unit) has often been called the brains of the PC. But increasingly, that brain is being enhanced by another part of the PC – the GPU (graphics processing unit), which is its soul.

Cpu-vs-gpu All PCs have chips that render the display images to monitors. But not all these chips are created equal. Intel’s integrated graphics controller provides basic graphics that can display only productivity applications like Microsoft PowerPoint, low-resolution video and basic games.

The GPU is in a class by itself – it goes far beyond basic graphics controller functions, and is a programmable and powerful computational device in its own right.


The First GPU

The first company to develop the GPU is NVIDIA Inc. The GeForce 256 GPU was capable of billions of calculations per second, can process a minimum of 10 million polygons per second, and has over 22 million transistors, compared to the 9 million found on the Pentium III. Its workstation version called the Quadro, designed for CAD applications, can process over 200 billion operations a second and deliver up to 17 million triangles per second.

HISTORY OF GPU COMPUTING
Graphics chips started as fixed-function graphics pipelines. Over the years, these graphics chips became increasingly programmable, which led NVIDIA to introduce the first GPU. In the 1999-2000 timeframe, computer scientists, along with researchers in fields such as medical imaging and electromagnetics, started using GPUs to accelerate a range of scientific applications. This was the advent of the movement called GPGPU, or General Purpose GPU computing.

The challenge was that GPGPU required the use of graphics programming languages like OpenGL and Cg to program the GPU. Developers had to make their scientific applications look like graphics applications and map them into problems that drew triangles and polygons. This limited the accessibility to the tremendous performance of GPUs for science.

NVIDIA realized the potential of bringing this performance to the larger scientific community and invested in modifying the GPU to make it fully programmable for scientific applications. Plus, it added support for high-level languages like C, C++, and Fortran. This led to the CUDA parallel computing platform for the GPU.


GPU-Accelerated Computing Goes Mainstream
GPU-accelerated computing has now grown into a mainstream movement supported by the latest operating systems from Apple (with OpenCL) and Microsoft (using DirectCompute). The reason for the wide and mainstream acceptance is that the GPU is a computational powerhouse, and its capabilities are growing faster than those of the x86 CPU.

In today’s PC, the GPU can now take on many multimedia tasks, such as accelerating Adobe Flash video, transcoding (translating) video between different formats, image recognition, virus pattern matching and others. More and more, the really hard problems to solve are those that have an inherent parallel nature – video processing, image analysis, signal processing.


The combination of a CPU with a GPU can deliver the best value of system performance, price, and power.

How to Delete Your YouTube Watch History

View, delete, or pause watch history (signed in)

YouTube watch history makes it easy to find videos you recently watched and improves your video recommendations. You can control your watch history by deleting or pausing your history. You can delete individual items or delete your entire history. When you pause history, any videos that you watch while history is paused won't show in history and won’t be used to improve your recommendations. You can unpause your history to start recording history again.

View, delete, or pause watch history (signed in)

Go to myactivity.google.comto find videos that you've viewed while signed in. This includes videos that you have watched while signed in to the YouTube app on mobile devices, as well as youtube.com. It also includes videos you've watched in a YouTube player on other websites while signed in to Google Chrome. Changes you make to your account watch history will be reflected on all devices you sign in to with this account.

Remove Items From Your Watch History (and Search History)

YouTube’s Android app has an Incognito Mode you can enable to temporarily prevent it from collecting history. You can even have YouTube stop collecting your watch history entirely using the instructions below. So, if you’re about to watch something you don’t want in your history, use the below tips instead.

But, if you’ve already watched a video, Incognito Mode won’t help and you’ll need to remove it from your history if you don’t want to see it again.

To do this in your web browser, head to the YouTube website and click the menu button at the top left corner of the page. Click the “History” option under Library in the sidebar.

Remove Items From Your Watch History (and Search History)

YouTube’s Android app has an Incognito Mode you can enable to temporarily prevent it from collecting history. You can even have YouTube stop collecting your watch history entirely using the instructions below. So, if you’re about to watch something you don’t want in your history, use the below tips instead.

But, if you’ve already watched a video, Incognito Mode won’t help and you’ll need to remove it from your history if you don’t want to see it again.

To do this in your web browser, head to the YouTube website and click the menu button at the top left corner of the page. Click the “History” option under Library in the sidebar.

To remove an item from your watch history, click or tap the “X” to the right of it. You must hover over the video with your mouse to see the “X” on the desktop website.

Clear Your Entire Watch History (and Search History)

Rather than deleting individual watched videos, you can just clear your entire watch history from Google’s servers. Be warned: This will make YouTube’s video recommendations worse, as YouTube won’t know what types of videos you like watching.

To do this on the YouTube website, click the menu button at the top left corner of the page, and then click the “History” option. To the right of your watched videos, click the “Clear All Watch History” command.

A dialog box will appear, asking you for confirmation. Click “Clear Watch History” to confirm your choice.

How to Delete Your YouTube Watch History

View, delete, or pause watch history (signed in)

YouTube watch history makes it easy to find videos you recently watched and improves your video recommendations. You can control your watch history by deleting or pausing your history. You can delete individual items or delete your entire history. When you pause history, any videos that you watch while history is paused won't show in history and won’t be used to improve your recommendations. You can unpause your history to start recording history again.

View, delete, or pause watch history (signed in)

Go to myactivity.google.comto find videos that you've viewed while signed in. This includes videos that you have watched while signed in to the YouTube app on mobile devices, as well as youtube.com. It also includes videos you've watched in a YouTube player on other websites while signed in to Google Chrome. Changes you make to your account watch history will be reflected on all devices you sign in to with this account.

Remove Items From Your Watch History (and Search History)

YouTube’s Android app has an Incognito Mode you can enable to temporarily prevent it from collecting history. You can even have YouTube stop collecting your watch history entirely using the instructions below. So, if you’re about to watch something you don’t want in your history, use the below tips instead.

But, if you’ve already watched a video, Incognito Mode won’t help and you’ll need to remove it from your history if you don’t want to see it again.

To do this in your web browser, head to the YouTube website and click the menu button at the top left corner of the page. Click the “History” option under Library in the sidebar.

Remove Items From Your Watch History (and Search History)

YouTube’s Android app has an Incognito Mode you can enable to temporarily prevent it from collecting history. You can even have YouTube stop collecting your watch history entirely using the instructions below. So, if you’re about to watch something you don’t want in your history, use the below tips instead.

But, if you’ve already watched a video, Incognito Mode won’t help and you’ll need to remove it from your history if you don’t want to see it again.

To do this in your web browser, head to the YouTube website and click the menu button at the top left corner of the page. Click the “History” option under Library in the sidebar.

To remove an item from your watch history, click or tap the “X” to the right of it. You must hover over the video with your mouse to see the “X” on the desktop website.

Clear Your Entire Watch History (and Search History)

Rather than deleting individual watched videos, you can just clear your entire watch history from Google’s servers. Be warned: This will make YouTube’s video recommendations worse, as YouTube won’t know what types of videos you like watching.

To do this on the YouTube website, click the menu button at the top left corner of the page, and then click the “History” option. To the right of your watched videos, click the “Clear All Watch History” command.

A dialog box will appear, asking you for confirmation. Click “Clear Watch History” to confirm your choice.

Computer Input Devices

In computing, an input device is a piece of computer hardware equipment used to provide data and control signals to an information processing system such as a computer or information appliance. Examples of input devices include keyboards, mouse, scanners, digital cameras and joysticks. Audio input devices may be used for purposes including speech recognition. Many companies are utilizing speech recognition to help assist users to use their device(s).


Following are some of the important input devices which are used in a computer −

    Keyboard
    Mouse
    Joy Stick
    Light pen
    Track Ball
    Scanner
    Graphic Tablet
    Microphone
    Magnetic Ink Card Reader(MICR)
    Optical Character Reader(OCR)
    Bar Code Reader
    Optical Mark Reader(OMR)

Keyboard

Keyboard is the most common and very popular input device which helps to input data to the computer. The layout of the keyboard is like that of traditional typewriter, although there are some additional keys provided for performing additional functions.

 

Keyboards are of two sizes 84 keys or 101/102 keys, but now keyboards with 104 keys or 108 keys are also available for Windows and Internet.
The keys on the keyboard are as follows −
S.No    Keys & Description
1    Typing Keys
These keys include the letter keys (A-Z) and digit keys (09) which generally give the same layout as that of typewriters.
2    Numeric Keypad
It is used to enter the numeric data or cursor movement. Generally, it consists of a set of 17 keys that are laid out in the same configuration used by most adding machines and calculators.
3    Function Keys
The twelve function keys are present on the keyboard which are arranged in a row at the top of the keyboard. Each function key has a unique meaning and is used for some specific purpose.
4    Control keys
These keys provide cursor and screen control. It includes four directional arrow keys. Control keys also include Home, End, Insert, Delete, Page Up, Page Down, Control(Ctrl), Alternate(Alt), Escape(Esc).
5    Special Purpose Keys
Keyboard also contains some special purpose keys such as Enter, Shift, Caps Lock, Num Lock, Space bar, Tab, and Print Screen.

Mouse

Mouse is the most popular pointing device. It is a very famous cursor-control device having a small palm size box with a round ball at its base, which senses the movement of the mouse and sends corresponding signals to the CPU when the mouse buttons are pressed.
Generally, it has two buttons called the left and the right button and a wheel is present between the buttons. A mouse can be used to control the position of the cursor on the screen, but it cannot be used to enter text into the computer.

dvantages

• Easy to use
• Not very expensive
• Moves the cursor faster than the arrow keys of the keyboard.

Joystick

Joystick is also a pointing device, which is used to move the cursor position on a monitor screen. It is a stick having a spherical ball at its both lower and upper ends. The lower spherical ball moves in a socket. The joystick can be moved in all four directions.

The function of the joystick is similar to that of a mouse. It is mainly used in Computer Aided Designing (CAD) and playing computer games.

Light Pen

Light pen is a pointing device similar to a pen. It is used to select a displayed menu item or draw pictures on the monitor screen. It consists of a photocell and an optical system placed in a small tube.

When the tip of a light pen is moved over the monitor screen and the pen button is pressed, its photocell sensing element detects the screen location and sends the corresponding signal to the CPU.

Track Ball

Track ball is an input device that is mostly used in notebook or laptop computer, instead of a mouse. This is a ball which is half inserted and by moving fingers on the ball, the pointer can be moved.

Since the whole device is not moved, a track ball requires less space than a mouse. A track ball comes in various shapes like a ball, a button, or a square.

Scanner

Scanner is an input device, which works more like a photocopy machine. It is used when some information is available on paper and it is to be transferred to the hard disk of the computer for further manipulation.

Scanner captures images from the source which are then converted into a digital form that can be stored on the disk. These images can be edited before they are printed.

Digitizer

Digitizer is an input device which converts analog information into digital form. Digitizer can convert a signal from the television or camera into a series of numbers that could be stored in a computer. They can be used by the computer to create a picture of whatever the camera had been pointed at.

Digitizer is also known as Tablet or Graphics Tablet as it converts graphics and pictorial data into binary inputs. A graphic tablet as digitizer is used for fine works of drawing and image manipulation applications.

Microphone

Microphone is an input device to input sound that is then stored in a digital form.

The microphone is used for various applications such as adding sound to a multimedia presentation or for mixing music.

Magnetic Ink Card Reader (MICR)

MICR input device is generally used in banks as there are large number of cheques to be processed every day. The bank's code number and cheque number are printed on the cheques with a special type of ink that contains particles of magnetic material that are machine readable.

This reading process is called Magnetic Ink Character Recognition (MICR). The main advantages of MICR is that it is fast and less error prone.

Optical Character Reader (OCR)

OCR is an input device used to read a printed text.

 

Bar Code Readers

Bar Code Reader is a device used for reading bar coded data (data in the form of light and dark lines). Bar coded data is generally used in labelling goods, numbering the books, etc. It may be a handheld scanner or may be embedded in a stationary scanner.

Bar Code Reader scans a bar code image, converts it into an alphanumeric value, which is then fed to the computer that the bar code reader is connected to.

Optical Mark Reader (OMR)

OMR is a special type of optical scanner used to recognize the type of mark made by pen or pencil. It is used where one out of a few alternatives is to be selected and marked.

 TAGS- COMPUTERS INPUT DEVICES

Computer Input Devices

In computing, an input device is a piece of computer hardware equipment used to provide data and control signals to an information processing system such as a computer or information appliance. Examples of input devices include keyboards, mouse, scanners, digital cameras and joysticks. Audio input devices may be used for purposes including speech recognition. Many companies are utilizing speech recognition to help assist users to use their device(s).


Following are some of the important input devices which are used in a computer −

    Keyboard
    Mouse
    Joy Stick
    Light pen
    Track Ball
    Scanner
    Graphic Tablet
    Microphone
    Magnetic Ink Card Reader(MICR)
    Optical Character Reader(OCR)
    Bar Code Reader
    Optical Mark Reader(OMR)

Keyboard

Keyboard is the most common and very popular input device which helps to input data to the computer. The layout of the keyboard is like that of traditional typewriter, although there are some additional keys provided for performing additional functions.

 

Keyboards are of two sizes 84 keys or 101/102 keys, but now keyboards with 104 keys or 108 keys are also available for Windows and Internet.
The keys on the keyboard are as follows −
S.No    Keys & Description
1    Typing Keys
These keys include the letter keys (A-Z) and digit keys (09) which generally give the same layout as that of typewriters.
2    Numeric Keypad
It is used to enter the numeric data or cursor movement. Generally, it consists of a set of 17 keys that are laid out in the same configuration used by most adding machines and calculators.
3    Function Keys
The twelve function keys are present on the keyboard which are arranged in a row at the top of the keyboard. Each function key has a unique meaning and is used for some specific purpose.
4    Control keys
These keys provide cursor and screen control. It includes four directional arrow keys. Control keys also include Home, End, Insert, Delete, Page Up, Page Down, Control(Ctrl), Alternate(Alt), Escape(Esc).
5    Special Purpose Keys
Keyboard also contains some special purpose keys such as Enter, Shift, Caps Lock, Num Lock, Space bar, Tab, and Print Screen.

Mouse

Mouse is the most popular pointing device. It is a very famous cursor-control device having a small palm size box with a round ball at its base, which senses the movement of the mouse and sends corresponding signals to the CPU when the mouse buttons are pressed.
Generally, it has two buttons called the left and the right button and a wheel is present between the buttons. A mouse can be used to control the position of the cursor on the screen, but it cannot be used to enter text into the computer.

dvantages

• Easy to use
• Not very expensive
• Moves the cursor faster than the arrow keys of the keyboard.

Joystick

Joystick is also a pointing device, which is used to move the cursor position on a monitor screen. It is a stick having a spherical ball at its both lower and upper ends. The lower spherical ball moves in a socket. The joystick can be moved in all four directions.

The function of the joystick is similar to that of a mouse. It is mainly used in Computer Aided Designing (CAD) and playing computer games.

Light Pen

Light pen is a pointing device similar to a pen. It is used to select a displayed menu item or draw pictures on the monitor screen. It consists of a photocell and an optical system placed in a small tube.

When the tip of a light pen is moved over the monitor screen and the pen button is pressed, its photocell sensing element detects the screen location and sends the corresponding signal to the CPU.

Track Ball

Track ball is an input device that is mostly used in notebook or laptop computer, instead of a mouse. This is a ball which is half inserted and by moving fingers on the ball, the pointer can be moved.

Since the whole device is not moved, a track ball requires less space than a mouse. A track ball comes in various shapes like a ball, a button, or a square.

Scanner

Scanner is an input device, which works more like a photocopy machine. It is used when some information is available on paper and it is to be transferred to the hard disk of the computer for further manipulation.

Scanner captures images from the source which are then converted into a digital form that can be stored on the disk. These images can be edited before they are printed.

Digitizer

Digitizer is an input device which converts analog information into digital form. Digitizer can convert a signal from the television or camera into a series of numbers that could be stored in a computer. They can be used by the computer to create a picture of whatever the camera had been pointed at.

Digitizer is also known as Tablet or Graphics Tablet as it converts graphics and pictorial data into binary inputs. A graphic tablet as digitizer is used for fine works of drawing and image manipulation applications.

Microphone

Microphone is an input device to input sound that is then stored in a digital form.

The microphone is used for various applications such as adding sound to a multimedia presentation or for mixing music.

Magnetic Ink Card Reader (MICR)

MICR input device is generally used in banks as there are large number of cheques to be processed every day. The bank's code number and cheque number are printed on the cheques with a special type of ink that contains particles of magnetic material that are machine readable.

This reading process is called Magnetic Ink Character Recognition (MICR). The main advantages of MICR is that it is fast and less error prone.

Optical Character Reader (OCR)

OCR is an input device used to read a printed text.

 

Bar Code Readers

Bar Code Reader is a device used for reading bar coded data (data in the form of light and dark lines). Bar coded data is generally used in labelling goods, numbering the books, etc. It may be a handheld scanner or may be embedded in a stationary scanner.

Bar Code Reader scans a bar code image, converts it into an alphanumeric value, which is then fed to the computer that the bar code reader is connected to.

Optical Mark Reader (OMR)

OMR is a special type of optical scanner used to recognize the type of mark made by pen or pencil. It is used where one out of a few alternatives is to be selected and marked.

 TAGS- COMPUTERS INPUT DEVICES