This document provides definitions and information about common file types including their file extensions and intended uses. It discusses bitmap (.bmp), EPS, GIF, JPEG, PSD, PNG, TIFF, Illustrator (.ai), and PDF file types. For each file type, it describes whether it contains raster or vector data, its color support, compression methods, and whether it is best suited for web, print, or other uses. The document is intended as a resource to help understand which file format to use for different programs and purposes.
This document compares various image file formats including JPEG, GIF, BMP, TIFF, EPS, PSD, PDF and SWF. It describes the characteristics of each format such as whether they are pixel- or vector-based, support for layers, compression, and color modes. The advantages and limitations of each file format are provided, such as file size, compatibility across platforms, ability to edit images, and support for animations.
The document discusses various file formats for images, including GIF, JPEG, PNG, SVG, EPS, AI, PDF, PSD, RAW, TIFF, BMP, vector graphics, and raster graphics. It provides details on the appropriate uses and key pros and cons of each format. GIF is best for images with flat colors while JPEG is best for photographic images. PNG is a good replacement for many GIFs but JPEG may be more efficient for photos. SVG and EPS can contain vector data but have limitations. PDF is good for protecting intellectual property but is meant for print. PSD contains the most image data but is Photoshop-specific. RAW files contain full sensor data while TIFF is a reliable cross-platform
File formats are designed to store specific types of information like images. JPEG is a lossy compression format suitable for photos, while PNG is a lossless format that can compress solid colors and is more supported than GIFs, which can animate but have a limited color palette. PSD files are layered Photoshop documents, TIFFs are standard for scanning, and RAW files store unprocessed camera data for more editing control, though they are larger files. Vector formats like EPS contain paths rather than pixels and can scale smoothly.
There are various file formats used for different types of digital data and graphic design work. Raster images are made up of pixels while vector images use paths. Common raster formats include JPEG, PNG, GIF and TIFF. JPEG is best for photos but loses quality each time it's resaved. PNG is lossless and better for logos. PSD files preserve layers and are widely used in design. Vector formats include EPS, which prints at high quality. RAW files store unprocessed camera sensor data to give more editing control. Different programs are used to create and edit raster and vector images.
The document outlines various file formats for images, including their purposes and characteristics. It discusses formats such as JPEG, GIF, PNG, TIFF, EPS, PDF, PSD and others. It explains that file conversion involves changing the encoding of data from one format to another, such as when upgrading software versions or changing programs or operating systems. Proper file conversion preserves the original file and logs any processing steps.
The document discusses different types of graphic file formats, including their purposes and characteristics. Raster graphics like JPEG files contain pixels that combine to form images, while vector images like AI files contain data about curved and straight paths instead of pixels. Due to this difference, vector images can be scaled large without losing quality, making them suited for commercial use, whereas raster images lose quality faster with scaling and are better for personal projects.
Raster graphics like JPEG files contain pixels that combine to form images and are best for personal projects. Vector files like AI contain data on color and curvature instead of pixels and can scale to any size without quality loss, making them ideal for commercial use. Different file formats have different purposes, with vectors suitable for printing and raster images more for web use due to their ability to maintain quality at different resolutions.
Raster graphics are made up of pixels arranged in a grid, so they have a fixed resolution. Larger raster images take up more file space due to more pixels. Raster images can be scaled down without quality loss but scaling up may cause pixelation. Vector graphics use paths instead of pixels, so they can be scaled up without quality loss. Common raster file formats include JPEG, TIFF, GIF, and BMP, which vary in compression, quality, and file size. Optimizing images by reducing file size makes uploading and loading faster without degrading quality. Proper naming and organization of image assets helps with file management and collaborative work.
This document compares various image file formats including JPEG, GIF, BMP, TIFF, EPS, PSD, PDF and SWF. It describes the characteristics of each format such as whether they are pixel- or vector-based, support for layers, compression, and color modes. The advantages and limitations of each file format are provided, such as file size, compatibility across platforms, ability to edit images, and support for animations.
The document discusses various file formats for images, including GIF, JPEG, PNG, SVG, EPS, AI, PDF, PSD, RAW, TIFF, BMP, vector graphics, and raster graphics. It provides details on the appropriate uses and key pros and cons of each format. GIF is best for images with flat colors while JPEG is best for photographic images. PNG is a good replacement for many GIFs but JPEG may be more efficient for photos. SVG and EPS can contain vector data but have limitations. PDF is good for protecting intellectual property but is meant for print. PSD contains the most image data but is Photoshop-specific. RAW files contain full sensor data while TIFF is a reliable cross-platform
File formats are designed to store specific types of information like images. JPEG is a lossy compression format suitable for photos, while PNG is a lossless format that can compress solid colors and is more supported than GIFs, which can animate but have a limited color palette. PSD files are layered Photoshop documents, TIFFs are standard for scanning, and RAW files store unprocessed camera data for more editing control, though they are larger files. Vector formats like EPS contain paths rather than pixels and can scale smoothly.
There are various file formats used for different types of digital data and graphic design work. Raster images are made up of pixels while vector images use paths. Common raster formats include JPEG, PNG, GIF and TIFF. JPEG is best for photos but loses quality each time it's resaved. PNG is lossless and better for logos. PSD files preserve layers and are widely used in design. Vector formats include EPS, which prints at high quality. RAW files store unprocessed camera sensor data to give more editing control. Different programs are used to create and edit raster and vector images.
The document outlines various file formats for images, including their purposes and characteristics. It discusses formats such as JPEG, GIF, PNG, TIFF, EPS, PDF, PSD and others. It explains that file conversion involves changing the encoding of data from one format to another, such as when upgrading software versions or changing programs or operating systems. Proper file conversion preserves the original file and logs any processing steps.
The document discusses different types of graphic file formats, including their purposes and characteristics. Raster graphics like JPEG files contain pixels that combine to form images, while vector images like AI files contain data about curved and straight paths instead of pixels. Due to this difference, vector images can be scaled large without losing quality, making them suited for commercial use, whereas raster images lose quality faster with scaling and are better for personal projects.
Raster graphics like JPEG files contain pixels that combine to form images and are best for personal projects. Vector files like AI contain data on color and curvature instead of pixels and can scale to any size without quality loss, making them ideal for commercial use. Different file formats have different purposes, with vectors suitable for printing and raster images more for web use due to their ability to maintain quality at different resolutions.
Raster graphics are made up of pixels arranged in a grid, so they have a fixed resolution. Larger raster images take up more file space due to more pixels. Raster images can be scaled down without quality loss but scaling up may cause pixelation. Vector graphics use paths instead of pixels, so they can be scaled up without quality loss. Common raster file formats include JPEG, TIFF, GIF, and BMP, which vary in compression, quality, and file size. Optimizing images by reducing file size makes uploading and loading faster without degrading quality. Proper naming and organization of image assets helps with file management and collaborative work.
Many common file types are used nowadays as technology continues to develop. Learn and familiarize with these file types to know what you need to use for every project.
Source: https://deftpdf.com/blog/file-types-and-conversions
This document discusses various digital file formats for raster and vector graphics. Raster formats like JPEG, TIFF, GIF, BMP are described along with their uses and advantages/disadvantages. Vector formats like AI, FLA, WMF are also outlined. Compression and image capture methods like scanning and digital cameras are briefly covered. Key points include JPEG being widely supported but lossy, TIFF being lossless but large file sizes, and vector formats like AI scaling well but requiring proprietary software.
Use this presentation to help when you're working with a graphic designer on your next project. It will help you speak the lingo and understand the terms they use on a regular basis.
This document discusses different file formats for digital graphics. It begins by defining raster graphics as bitmap images composed of pixels and lists common raster formats like JPEG, TIFF, and PNG. It then discusses vector graphics, which use mathematical equations to represent shapes and lines, and lists vector software. The document also covers metafiles, which can contain both raster and vector graphics, and examples include WMF and EMF. It concludes by explaining what file extensions are and providing examples.
Adobe Photoshop is a raster graphics editor developed by Adobe Systems. It allows users to edit and composite raster images in multiple layers and supports masks, alpha compositing, and several color modes. Photoshop has vast support for graphic file formats and its own PSD and PSB formats. It can be used to alter images through changing colors, modifying sizes, and combining images. Some of its features include friendly interfaces, high-tech coding for quality editing, and the ability to create 3D, HD, and illustrator image edits.
Raster graphics are made up of pixels and have a fixed resolution, so resizing can result in distortion. Vector graphics are made up of paths defined by points and curves, so there is no quality loss when resizing. Common file formats include JPEG for photographs, TIFF for publishing, GIF for small files like emails, and BMP from Paint. Vector formats include PSD for Photoshop layers, AI for logos, and FLA for animations. Compressing files reduces size but can lower quality, while optimizing removes unnecessary data without affecting quality. File size depends on layers and scaling before exporting preserves quality. Accurate naming and folders aid organization.
The document discusses several common image file formats: TIFF, JPEG, GIF, PNG, and EXIF. TIFF files are uncompressed, high quality images used in design software. JPEG files are for photographs and use lossy compression for smaller file sizes. GIFs use lossless compression but have a limited color palette, making them suited for images with few colors like logos. PNG is an alternative to GIF with better compression and more colors. EXIF stores camera metadata in JPEG files.
Image resolution refers to the level of detail in an image, measured by pixel count for digital images. Raster images use a grid of pixels that can vary in shade and color, while vector images use mathematical relationships between points and paths. Higher resolutions allow for more detail but require larger file sizes. Common file formats include JPG for photographs and PNG for internet use, with different compression levels and quality tradeoffs.
Higher resolution images contain more detail, which can be measured by pixel count. Raster images are composed of pixels in a grid, while vector images use mathematical relationships between points and paths. Bitmaps are best for photos needing subtle shading, while vectors are more suited to illustrations. Common file formats include JPEG for photos and GIF/PNG for web use, with different compression levels and capabilities. Optimizing images balances file size and quality for different purposes.
Pixels make up images on displays and their number determines resolution. Common file formats include BMP for bitmaps, PNG for lossless web images, GIF for animations and logos with 256 colors, TIFF for publishing, JPEG for photos, PSD for Photoshop, PDF for documents, EPS for encapsulated PostScript, and AI for Adobe Illustrator. File compression reduces file sizes using algorithms, while digital asset management involves ingesting, cataloging, storing, and distributing digital assets like photos.
Pixels are the tiny dots that make up images on screens. The display resolution is the number of pixels that can be shown. Common file formats include BMP for bitmaps, PNG for lossless web images, GIF for simple images and animations with 256 colors, TIFF for professional photos, JPEG for digital camera photos, PSD for Photoshop files, PDF for documents, EPS for graphics, and AI for Adobe Illustrator files. File compression reduces file sizes using algorithms, while digital asset management involves ingesting, cataloging, storing and distributing digital media like photos and videos.
There are several common graphic file formats for images, with TIFF, JPEG, and GIF being the most widely used. The best format depends on factors like the image content, intended use, need for editing, and compatibility. TIFF is a versatile, lossless format best for master copies. JPEG uses lossy compression and is best for photos. GIF is limited to 256 colors but works well for logos and is widely compatible. The document provides details on the characteristics and use cases of various formats.
This document provides information about various file types including JPG, TFF, PNG, BMP, PSD, AI, and WMF. It summarizes each file type, what software can open the files, and includes links to additional details. Adobe Photoshop and Illustrator are also summarized, with Photoshop described as predominant photo editing software and Illustrator used to create vector images for logos, illustrations and more.
Vector images use geometrical primitives to represent images while bitmap images map pixels spatially. JPEG files compress images using lossy compression that doesn't allow exact reconstruction, while GIF uses indexing to select colors from a limited palette. Embedded graphics are contained in documents, while linked graphics reference external files. Color palettes assign numbers to a subset of display colors for pixels. Lossless compression reconstructs original data exactly unlike lossy methods. PNG files overcome GIF and JPEG limitations but don't support animation. BMP files are large and bad for sharing unlike compressed formats. Flickr is a photo sharing site used by bloggers as a photo repository with tagging and browsing tools.
File formats like JPEG, GIF, TIFF, PSD, PNG, and RAW each have specific uses and advantages/disadvantages for storing image data. JPEG is best for photographs and is a common web format due to its smaller file size from compression, though this results in some lost quality. GIF is ideal for images with few colors like logos and is widely used for web animations, but has a limited color palette. TIFF preserves full quality but results in large file sizes. PSD allows editing layers in Photoshop. PNG is similar to GIF but without its color limitations. RAW files have highest quality but largest sizes.
The document discusses different file formats and their properties. It compares vector and bitmap images, explaining that vector images can be resized easily while bitmaps always look the same. It also compares GIF and JPEG formats, noting that GIF is for simple images while JPEG compresses photos. Embedded graphics are part of a document while linked graphics only reference an external file. A color palette assigns numbers to a limited subset of colors in an image. Lossless compression allows exact reconstruction of original data. PNG is presented as a better alternative to GIF for photos. BMP format is not suitable for web images as browsers do not support it. Flickr is described as a photo sharing site mainly used by bloggers.
Raster graphics store images as a collection of pixels and are usually larger file sizes. They can be difficult to modify without quality loss. Examples include BMP, TIFF, GIF and JPEG. Vector graphics use geometric shapes and equations and can scale smoothly. Examples include AI, EPS and WMF. JPEG is best for small web images and allows varying compression quality versus file size. TIFF supports layers and compression without quality loss but results in large file sizes. PSD stores Photoshop files and layers but is only compatible with Photoshop. 3DS files contain 3D modeling data and geometry but do not support bones for animation.
The document discusses common image file formats used on the web. JPEG is the most popular format and uses lossy compression to keep file sizes small. GIF uses an 8-bit palette that limits it to 256 colors and was popular for early web animation. BMP is the format used by Windows but results in large file sizes. TIFF is good for graphics storage and printing but large files. PNG was developed as an open alternative to GIF and works well for line art, text and logos.
This document discusses different file formats used for storing digital images and other media. It provides information on common file formats like JPEG, PNG, GIF, PSD, TIFF, RAW, EPS, and their uses and characteristics. Key differences between raster and vector images are explained. Common software applications used for creating raster images like Photoshop and vector images like Illustrator are also mentioned. The document seeks to inform readers about the various digital file formats and their applications.
This document discusses and compares various digital image file formats including JPG, GIF, TIFF, PNG, BMP, and RAW. It explains the differences between lossy and lossless compression and how different formats support varying numbers of colors. Key points covered include the intended uses of formats for print versus web, how layers and transparency are supported, and recommendations for when to use specific formats for photographs, graphics, and other image types.
This document discusses various image file formats, including raster formats like JPEG, GIF, PNG, TIFF, RAW and PSD, as well as vector formats like PDF, EPS and AI. It explains the differences between these formats and provides guidance on which format to use for different purposes, such as web graphics, printing, photos and layered artwork. Raster formats store pixels while vector formats use mathematical equations to store shapes and paths. The document also covers concepts like lossy vs. lossless compression and RGB vs. CMYK color modes.
Many common file types are used nowadays as technology continues to develop. Learn and familiarize with these file types to know what you need to use for every project.
Source: https://deftpdf.com/blog/file-types-and-conversions
This document discusses various digital file formats for raster and vector graphics. Raster formats like JPEG, TIFF, GIF, BMP are described along with their uses and advantages/disadvantages. Vector formats like AI, FLA, WMF are also outlined. Compression and image capture methods like scanning and digital cameras are briefly covered. Key points include JPEG being widely supported but lossy, TIFF being lossless but large file sizes, and vector formats like AI scaling well but requiring proprietary software.
Use this presentation to help when you're working with a graphic designer on your next project. It will help you speak the lingo and understand the terms they use on a regular basis.
This document discusses different file formats for digital graphics. It begins by defining raster graphics as bitmap images composed of pixels and lists common raster formats like JPEG, TIFF, and PNG. It then discusses vector graphics, which use mathematical equations to represent shapes and lines, and lists vector software. The document also covers metafiles, which can contain both raster and vector graphics, and examples include WMF and EMF. It concludes by explaining what file extensions are and providing examples.
Adobe Photoshop is a raster graphics editor developed by Adobe Systems. It allows users to edit and composite raster images in multiple layers and supports masks, alpha compositing, and several color modes. Photoshop has vast support for graphic file formats and its own PSD and PSB formats. It can be used to alter images through changing colors, modifying sizes, and combining images. Some of its features include friendly interfaces, high-tech coding for quality editing, and the ability to create 3D, HD, and illustrator image edits.
Raster graphics are made up of pixels and have a fixed resolution, so resizing can result in distortion. Vector graphics are made up of paths defined by points and curves, so there is no quality loss when resizing. Common file formats include JPEG for photographs, TIFF for publishing, GIF for small files like emails, and BMP from Paint. Vector formats include PSD for Photoshop layers, AI for logos, and FLA for animations. Compressing files reduces size but can lower quality, while optimizing removes unnecessary data without affecting quality. File size depends on layers and scaling before exporting preserves quality. Accurate naming and folders aid organization.
The document discusses several common image file formats: TIFF, JPEG, GIF, PNG, and EXIF. TIFF files are uncompressed, high quality images used in design software. JPEG files are for photographs and use lossy compression for smaller file sizes. GIFs use lossless compression but have a limited color palette, making them suited for images with few colors like logos. PNG is an alternative to GIF with better compression and more colors. EXIF stores camera metadata in JPEG files.
Image resolution refers to the level of detail in an image, measured by pixel count for digital images. Raster images use a grid of pixels that can vary in shade and color, while vector images use mathematical relationships between points and paths. Higher resolutions allow for more detail but require larger file sizes. Common file formats include JPG for photographs and PNG for internet use, with different compression levels and quality tradeoffs.
Higher resolution images contain more detail, which can be measured by pixel count. Raster images are composed of pixels in a grid, while vector images use mathematical relationships between points and paths. Bitmaps are best for photos needing subtle shading, while vectors are more suited to illustrations. Common file formats include JPEG for photos and GIF/PNG for web use, with different compression levels and capabilities. Optimizing images balances file size and quality for different purposes.
Pixels make up images on displays and their number determines resolution. Common file formats include BMP for bitmaps, PNG for lossless web images, GIF for animations and logos with 256 colors, TIFF for publishing, JPEG for photos, PSD for Photoshop, PDF for documents, EPS for encapsulated PostScript, and AI for Adobe Illustrator. File compression reduces file sizes using algorithms, while digital asset management involves ingesting, cataloging, storing, and distributing digital assets like photos.
Pixels are the tiny dots that make up images on screens. The display resolution is the number of pixels that can be shown. Common file formats include BMP for bitmaps, PNG for lossless web images, GIF for simple images and animations with 256 colors, TIFF for professional photos, JPEG for digital camera photos, PSD for Photoshop files, PDF for documents, EPS for graphics, and AI for Adobe Illustrator files. File compression reduces file sizes using algorithms, while digital asset management involves ingesting, cataloging, storing and distributing digital media like photos and videos.
There are several common graphic file formats for images, with TIFF, JPEG, and GIF being the most widely used. The best format depends on factors like the image content, intended use, need for editing, and compatibility. TIFF is a versatile, lossless format best for master copies. JPEG uses lossy compression and is best for photos. GIF is limited to 256 colors but works well for logos and is widely compatible. The document provides details on the characteristics and use cases of various formats.
This document provides information about various file types including JPG, TFF, PNG, BMP, PSD, AI, and WMF. It summarizes each file type, what software can open the files, and includes links to additional details. Adobe Photoshop and Illustrator are also summarized, with Photoshop described as predominant photo editing software and Illustrator used to create vector images for logos, illustrations and more.
Vector images use geometrical primitives to represent images while bitmap images map pixels spatially. JPEG files compress images using lossy compression that doesn't allow exact reconstruction, while GIF uses indexing to select colors from a limited palette. Embedded graphics are contained in documents, while linked graphics reference external files. Color palettes assign numbers to a subset of display colors for pixels. Lossless compression reconstructs original data exactly unlike lossy methods. PNG files overcome GIF and JPEG limitations but don't support animation. BMP files are large and bad for sharing unlike compressed formats. Flickr is a photo sharing site used by bloggers as a photo repository with tagging and browsing tools.
File formats like JPEG, GIF, TIFF, PSD, PNG, and RAW each have specific uses and advantages/disadvantages for storing image data. JPEG is best for photographs and is a common web format due to its smaller file size from compression, though this results in some lost quality. GIF is ideal for images with few colors like logos and is widely used for web animations, but has a limited color palette. TIFF preserves full quality but results in large file sizes. PSD allows editing layers in Photoshop. PNG is similar to GIF but without its color limitations. RAW files have highest quality but largest sizes.
The document discusses different file formats and their properties. It compares vector and bitmap images, explaining that vector images can be resized easily while bitmaps always look the same. It also compares GIF and JPEG formats, noting that GIF is for simple images while JPEG compresses photos. Embedded graphics are part of a document while linked graphics only reference an external file. A color palette assigns numbers to a limited subset of colors in an image. Lossless compression allows exact reconstruction of original data. PNG is presented as a better alternative to GIF for photos. BMP format is not suitable for web images as browsers do not support it. Flickr is described as a photo sharing site mainly used by bloggers.
Raster graphics store images as a collection of pixels and are usually larger file sizes. They can be difficult to modify without quality loss. Examples include BMP, TIFF, GIF and JPEG. Vector graphics use geometric shapes and equations and can scale smoothly. Examples include AI, EPS and WMF. JPEG is best for small web images and allows varying compression quality versus file size. TIFF supports layers and compression without quality loss but results in large file sizes. PSD stores Photoshop files and layers but is only compatible with Photoshop. 3DS files contain 3D modeling data and geometry but do not support bones for animation.
The document discusses common image file formats used on the web. JPEG is the most popular format and uses lossy compression to keep file sizes small. GIF uses an 8-bit palette that limits it to 256 colors and was popular for early web animation. BMP is the format used by Windows but results in large file sizes. TIFF is good for graphics storage and printing but large files. PNG was developed as an open alternative to GIF and works well for line art, text and logos.
This document discusses different file formats used for storing digital images and other media. It provides information on common file formats like JPEG, PNG, GIF, PSD, TIFF, RAW, EPS, and their uses and characteristics. Key differences between raster and vector images are explained. Common software applications used for creating raster images like Photoshop and vector images like Illustrator are also mentioned. The document seeks to inform readers about the various digital file formats and their applications.
This document discusses and compares various digital image file formats including JPG, GIF, TIFF, PNG, BMP, and RAW. It explains the differences between lossy and lossless compression and how different formats support varying numbers of colors. Key points covered include the intended uses of formats for print versus web, how layers and transparency are supported, and recommendations for when to use specific formats for photographs, graphics, and other image types.
This document discusses various image file formats, including raster formats like JPEG, GIF, PNG, TIFF, RAW and PSD, as well as vector formats like PDF, EPS and AI. It explains the differences between these formats and provides guidance on which format to use for different purposes, such as web graphics, printing, photos and layered artwork. Raster formats store pixels while vector formats use mathematical equations to store shapes and paths. The document also covers concepts like lossy vs. lossless compression and RGB vs. CMYK color modes.
Vector graphics use mathematical formulas to create shapes while bitmap (raster) graphics use a series of pixels assigned different colors. JPG files are better for photos due to lossy compression, while GIFs maintain sharp lines and are better for images with few colors. Embedded images are saved within a file while linked images reference an external source file.
The document discusses the differences between vector and bitmap images, including that vector images use mathematical formulas while bitmaps use pixels, and covers common file formats like JPEG, GIF and PNG. It also explains concepts such as lossless compression, embedded versus linked graphics, and resources for images like Flickr. The document advises against using BMP formats for web content due to browser limitations.
This document discusses how to insert images in HTML. It covers the img tag and attributes like src, width, height and alt. It describes common image formats like JPEG, GIF, BMP, TIFF and PNG. It lists image attributes that can be used like width, height, align, border and alt. It provides examples of how to insert an image background and image on top of a background. It also discusses how to create image links by placing an img tag inside anchor tags and includes an example.
The document discusses various image file formats including raster formats like JPEG, GIF, PNG, TIFF, RAW and PSD as well as vector formats like PDF, EPS and AI. It provides details on when each format should and should not be used based on factors like whether the image needs editing, printing, use online or in email. Raster formats are optimized for photos while vector formats maintain quality when resized. The document aims to help users choose the best format for different image uses and projects.
This document summarizes a technical report about the Gazelle web browser, which is constructed as a multi-principal operating system (OS). Gazelle's Browser Kernel runs as a separate OS process and exclusively manages resource protection and sharing across web site principals (origins). This construction exposes new design challenges not addressed in previous works, such as protecting cross-origin script sources and cross-principal display/events. The report describes Gazelle's security model and architecture, focusing on resource protection, and compares it to other browsers such as Google Chrome. It also discusses Gazelle's implementation in a prototype and evaluations of its performance and compatibility with popular websites.
This document provides definitions and information about common file types including their file extensions and intended uses. It discusses bitmap (.bmp), EPS, GIF, JPEG, PSD, PNG, TIFF, Illustrator (.ai), and PDF file types. For each file type, it describes whether it contains raster or vector data, its color support, compression methods, and whether it is best suited for web, print, or other uses. The document is intended to help understand which file format to use for different applications and programs.
EFLA competition - file and page format.pdfsptlove
The document provides file formatting specifications for a single page submission. It requires the file to be a PDF, with a minimum 300 dpi resolution for images and the file itself. The file size should be less than 15 MB. Color settings should use CMYK and fonts must be 6 points or greater and embedded. The file name should include the submitter's first and last name. The page size is 230 x 155 mm with a 3 mm bleed and the suggested margins are 10 mm from each side. The submitter's name can be included in the top right corner if desired.
This document provides two ways to change the default program that opens a specific file type on Windows 7. The easiest way is to right click a file, select "Open with", and then choose the preferred program from the menu and select the option to always use that program. Alternatively, one can open the Default Programs menu from the Start button, select "Associate a file type or protocol with a program", choose the file type and preferred opening program, and click OK to configure the change.
To download files from Moodle:
1) Log into your course on Moodle using your credentials. Multiple file types like PDF, Word, and PowerPoint can be distributed.
2) Click the link for the file you want - PDFs may open in a new window or embedded in Moodle, while other files give you an option to open or save the file.
3) Opening PowerPoint or Word files depends on your browser - they may open directly or save first before opening with the correct application.
This document provides two ways to change the default program that opens a specific file type on Windows 7. The easiest way is to right click a file, select "Open with", and then choose the preferred program from the menu and select the option to always use that program. Alternatively, one can open the Default Programs menu from the Start button, select "Associate a file type or protocol with a program", choose the file type and preferred opening program, and click OK to configure the change.
This document provides a collection of Unix/Linux commands useful for system administration and advanced users. It covers topics such as system information, processes, file systems, networks, encryption, version control, software installation and more. Each section provides concise explanations of commands within that topic area. The reader is expected to have a working knowledge of Unix-like systems.
The document provides instructions for completing Form I-9, which is used to verify employment eligibility in the United States. The form has three sections. Section 1 is completed by the employee to provide identity and employment authorization information. Section 2 is completed by the employer to examine identity and work authorization documents within 3 days of hire. Section 3 is used to update and reverify employment authorization when needed. Employers must retain completed I-9 forms for 3 years after hire or 1 year after employment ends.
This document summarizes a technical report about the Gazelle web browser, which is constructed as a multi-principal operating system (OS). Gazelle's Browser Kernel runs as a separate OS process and exclusively manages resource protection and sharing across web site principals (origins). This construction exposes new design challenges not addressed in previous works, such as protecting cross-origin script sources and cross-principal display/events. The report describes Gazelle's security model and architecture, focusing on resource protection, and compares it to other browsers such as Google Chrome. It also discusses Gazelle's implementation in a prototype and evaluations of its performance and compatibility with popular websites.
This document provides definitions and information about common file types including their file extensions and intended uses. It discusses bitmap (.bmp), EPS, GIF, JPEG, Photoshop (.psd), PNG, TIFF, Illustrator (.ai), and PDF file types. For each file type, it describes whether it contains raster or vector data, its color support, compression methods, and whether it is best suited for web, print, or other uses. The document is intended as a resource to help understand which file format to use for different programs and purposes.
The document provides file formatting specifications for a single page submission, including:
- File type must be .pdf
- Images must be at least 300dpi resolution
- File size cannot exceed 15mb
- Colour mode should be CMYK
- Font size must be 6 points or greater and fonts embedded
- File name should be in the format of firstname_lastname.pdf
It also specifies the page size at 230x155mm with 3mm bleed, and suggests including name/institution in top right corner.
To download files from Moodle:
1) Log into your course on Moodle using your credentials. Multiple file types like PDF, Word, and PowerPoint can be distributed.
2) Click the link for the file you want - PDFs may open in a new window or embedded in Moodle, while other files give you an option to open or save the file.
3) Opening PowerPoint or Word files depends on your browser - they may open directly or save first before opening with the correct application.
This document provides two ways to change the default program that opens a specific file type on Windows 7. The easiest way is to right click a file, select "Open with", and then choose the preferred program from the menu and select the option to always use that program. Alternatively, one can open the Default Programs menu from the Start button, select "Associate a file type or protocol with a program", choose the file type and preferred opening program, and click OK to configure the change.
This document provides a collection of Unix/Linux commands for system administration tasks. It covers topics such as the system, processes, file system, network, encryption, version control, software installation and more. Each section provides concise explanations of relevant commands and many include page references for further details. Advanced knowledge of the operating system is assumed.
The document provides instructions for completing Form I-9, the Employment Eligibility Verification form used by employers to verify that individuals are authorized to work in the United States. The summary includes:
1) The form must be completed within 3 business days of starting work to verify the identity and employment authorization of all new employees.
2) Section 1 is completed by the employee to provide identity and employment eligibility information. Section 2 is completed by the employer to examine identity and work authorization documents.
3) Acceptable identity and work authorization documents are separated into List A, B, and C. Employers must accept any valid combination of documents from these lists.
4) Completed I-9 forms must be
This document provides definitions and information about common file types including their file extensions and intended uses. It discusses bitmap (.bmp), EPS, GIF, JPEG, Photoshop (.psd), PNG, TIFF, Illustrator (.ai), and PDF file types. For each file type, it describes whether it contains raster or vector data, its color support, compression methods, and whether it is best suited for web, print, or other uses. The document is intended as a resource to help understand which file format to use for different applications and programs.
The document provides file formatting specifications for a single page submission, including:
- File type must be .pdf
- Images must be at least 300dpi resolution
- File size cannot exceed 15mb
- Colour mode should be CMYK
- Font size must be 6 points or greater and fonts embedded
- File name should be in the format of firstname_lastname.pdf
It also specifies the page size of 230x155mm with 3mm bleed and suggests including optional contact information such as name or institution in the top right corner.
To download files from Moodle:
1) Log into your course on Moodle using your credentials. Multiple file types like PDF, Word, and PowerPoint can be distributed.
2) Click the link for the file you want - PDFs may open in a new window or embedded in Moodle, while other files give you an option to open or save the file.
3) Opening PowerPoint or Word files depends on your browser - they may open directly or save first before opening with the correct application.
This document provides two ways to change the default program that opens a specific file type on Windows 7. The easiest way is to right click a file, select "Open with", and then choose the preferred program from the menu and select the option to always use that program. Alternatively, one can open the Default Programs menu from the Start button, select "Associate a file type or protocol with a program", choose the file type and preferred opening program, and click OK to configure the change.
This document provides a collection of Unix/Linux commands for system administration tasks. It covers topics such as the system, processes, file system, network, encryption, version control, software installation and more. Each section provides concise explanations of relevant commands and many include page references for further details. Advanced knowledge of the operating system is expected.
1. File Type Sheet
Winter 2006: hhttp://online.caup.washington.edu/courses/larc440
Landscape Architecture 440: Computing in Landscape Architecture
This sheet is intended as a resource / definitions page for digital file types. Know when to use which file type
is for which program is sometimes a difficult question. Hopefully this sheet will help! It is also available in pdf
form on the courses Resources page (http://online.caup.washington.edu/courses/LARC440/Resources.htm).
Type of file discussed:
1 Bitmap File (.bmp) 6 PNG (.png)
2 EPS 7 Tagged Image File Format (.tif)
3 GIF (.gif) 8 Illustrator File (.ai)
4 JPEG (.jpg) 9 Portable Document Format (.pdf)
5 Photoshop File (.psd)
1 File Extension: .bmp File Type: Raster Image
Bitmap files have some confusion associated with them. Some refer to any pixel-based image as a bitmap
file. However, a true bitmap image file refers to the standard Windows image format. This type of file is
mostly used on DOS- and Windows-based machines. A bitmap file is a raster- (or pixel) based format that
only supports the RGB color space and bit depths of 1, 4, 8, or 24 bits per channel. These attributes make
bitmap images unsuitable for use in a high-end print production workflow. Even though bitmap images are
in the RGB color space, they are not supported by any Web browsers or Web coding languages. Therefore,
they are not suitable for use as images in a Web application. You would be able to use such a graphic in an
HTML export from InDesign by having the automatic conversion to a GIF or JPEG file occur. Bitmap images
are best used for their intended purpose, as a system support on a PC Windows-based computer. Do not use
the placement of a bitmap image when designing for a high-end print production job.
2 File Extension: .eps File Type: Raster Image and Vector
An Encapsulated PostScript file is an image file that can contain either vector or bitmap information. An EPS
file can be created using any color space and any image bit depth. An EPS is really a collection of several
other image files all in one. EPS files are generated from several sources and are structured to publish code
constraints. An EPS file has two main parts, the preview and the high-resolution image data. The preview of
an EPS file is necessary to display the image in a page layout application, and the high resolution portions
of the file are necessary for imaging to a particular output device. An EPS file is a variation of a PostScript
language file. The two file types contain the same PostScript code, but an EPS file does not include the
“show page” command. Leaving this code out of the file allows an EPS to be placed into a page layout
application. EPS files have been built specifically for the print production world, and are not supported by
Web browsers.
3 File Extension : .gif File Type: Raster Image
The Graphic Interchange Format (GIF) is a standard and recognized file format used in online and Web
applications. GIF files can either be in grayscale or RGB color spaces. This works to keep the GIF files
used very small and quickly accepted in an HTML Web page. GIF files are created by using a limited color
gamut that supports transparency. Transparency is the GIF file formats strong point. Using this attribute of
the file format increases its appeal to Web designers. To further the uses of the file, a pseudo animation can
be created by using an animation feature found in flipbook style cartoons. This “flipping” of images can be
used to create the illusion of true animation. GIF files can only store and display 256 colors in the RGB or
indexed color gamut. In addition, the GIF file can be “interlaced,” where as every other row of information
can be displayed at one time. As soon as that initial row of information is received, the next rows of data are
downloaded. These attributes make GIF files unsuitable for use in a print production workflow, but highly
desirable in a Web design situation. GIFS are a great choice for high contrast images that contain line art and
text.
4 File Extension: .jpg File Type: Raster Image
Uses of the JPEG (Joint Photographic Experts Group) file format are far and wide. Initially, the file format
was intended for use in Web applications, but has found a home in the highend print production markets,
as well. The JPEG file format can be your best friend if used properly, or your worst enemy if implemented
incorrectly. A JPEG file is encoded by using an adjustable lossy compression approach. This means that
to achieve smaller file sizes, image data is actually thrown away. In small doses, the JPEG compression
2. File Type Sheet
Winter 2006: hhttp://online.caup.washington.edu/courses/larc440
Landscape Architecture 440: Computing in Landscape Architecture
approach can be very effective and efficient. However, in larger amounts, the resulting file will contain “noise”
and undesired artifacts in the image. Be very careful when preparing JPEG files for use in a print production
workflow.
The JPEG format will support the RGB, CMYK, and grayscale color spaces. The use of JPEG images is
supported in HTML and Web applications. However, unlike a GIF file, all of the color information is stored in
the file. There is no support for transparency in a JPEG file.
5 File Extension: .psd File Type: Raster & Vector Image
Adobe Photoshop files are generally written and read by Photoshop, however, there are several other
applications that will read this format. Most page layout applications (except Adobe InDesign and Illustrator),
do not allow native Photoshop images to be placed. A Photoshop file will retain all of the original file’s
attributes. Saved file characteristics include the following:
• Resolution
• Color space (CMYK, RGB, grayscale)
• Spot color channels
• Image bit depth
• Layers
6 File Extension: .png File Type: Raster Image
A Portable Network graphic (PNG) file is a pixel-based image that can be used to display images on
the Web (some older browsers may not support the use of this format). The start of the PNG file was in
an alternative to the proprietary CompuServe GIF file format. It will support 24-bit color, using a lossless
compression approach. The PNG file settings that can be controlled are:
• Transparency information
• File defined background color
• Adobe Gamma correction
Use of a PNG file in a Web project is a good fit. However, because of the lack of support for the CMYK
color space, and the fact that there can be no color separations, the PNG file is not a good fit in a print
production cycle.
7 File Extension: tiff File Type: Raster Image
A Tagged Image File Format (TIFF) file is the most widely used file format in desktop publishing today.
It is a raster-based file that supports RGB, CMYK, Grayscale, Lab and Indexed color. TIFF files can be
compressed by using an LZW loss less compression approach or JPEG lossy compression. For high-end
print production, it is the best practice to use either LZW compression or a very small amount of JPEG
compression. The JPEG compression approach is a lossy compression that will degrade image quality when
used in large amounts. When placing a TIFF file on a page, any clipping path that has been defined can be
retained and applied. However, Photoshop’s Alpha channel information will not be translated when placing a
TIFF.
8 File Extension: .ai File Type: Vector
This is the Adobe Illustrator filetype. Similar to the Photoshop filetype, Illustrator files maintain the complete
image information including color space, bit depth and layers. Printing directly as an Illustrator file is normally
fine, but CAUP is currently having inconsistent results plotting an .ai. It is best to save the image as a .pdf
before plotting.
9 File Extension: .pdf File Type: Raster and Vector
This is a Portable Document Format commonly used with Adobe Acrobat and Acrobat reader. PDF
represents documents in a manner that is independent of the original application software. A PDF file can
describe documents containing any combination of text, graphics, and images in a resolution independent
format. PDF documents are easily viewed but difficult to modify. This makes them great for resumes and
designs that you do not want people to modify. PDF’s can be consistently printed as well. You will be
creating many final images as PDF’s.
Information compiled from:
http://dx.sheridan.com/tech/main.html
http://www.worldstart.com/guides/imagefile.htm