1024

How Many Megabytes Equal 1 Gigabyte

1024 Megabites = 1 Gigabyte

512 Megabytes = 1/2 Gigabytes

1024 Megabytes =1 gigabyte



therefore:



512 Megabytes = 0.5 Gigabytes

mega = million

giga = billion



but because a byte is = 8 bits it take 1024 bytes to = 1 kilobyte

half of that is 512 and since it take a thousand of one unit of measure to = 1 unit of the next; 512 of any unit wether kilobytes, megabytes, giga bytes, etc. will always be half of the next higher unit. Therefore 512 Megabytes = .5 gigabytes and 1024 megabytes = 1 gigabyte.



basicly it all bytes, lol.

A gigabyte is 1024 megabytes. Technically it is not a true metric giga but it is considered to be close enough to call it that. 2gb equals 2048mb. The most common RAM chips are 64mb (outdated), 128mb (also outdated), 256mb (soon to be outdates), 512mb and 1024mb. The amount of RAM or memory in your PC are made up of combinations of these chips or DIMMS. 512mb is actually equal to half a gb

1024 megabytes

60 megabytes

1024......the megabytes go in order of 2 squared 2 to the third power, and so on....the other people have way to complicated answers

1024

512x2=1024*2 = 512*2=256*2=128*2=64*2=32

thats the sequence

How Many Mb Per Gb

1000

first of all 8bits = 1byte

1 bit (BInary digiT) is the smallest amount of data measured.

in the binary numeral system, 1 bit refers to a digit in that system

that is actually 2 digits (01) in the computer language

01 is 1bit

01 00 11 00 00 01 10 10 is 8bits and that makes 1byte

because we are using the binary numeral system we multiply 2 to the base and get to the result.

1024bytes = 1kilobyte (2*2*2*2*2*2*2*2*2*2 = 1024)

then 20 times 2 is

2*2*2*2*2*2*2*2*2*2*2*2*2*2*2*2*2*2*2 = 1048576bytes = 1megabyte

and 30 times 2 gets us to the conclusion that

1073741824 bytes is equal to 1gigabyte.

so 1024MB = 1GB and 512MB = 0,5GB (half)

it's not in long forgotten times and no strange computer scientist decided so. its binary numeral system communicating with arithmetic numerals. its like writing Nick in Greek (Νίκος) and without knowing any Greek trying to understand the meaning of this word. you can get close but you should try learning Greek before answering.

Officially:



1,000.

512MB = 0.512GB.



1,024 mebibyte = 1 gibibyte, but

1,000 megabyte = 1 gigabyte.



mega=1,000,000, giga=1,000,000,000

mebi=1,048,576, gibi=1,073,741,824



Example: a gibibyte is a contraction of giga binary byte.



Some HD manufacturer was forced to state on their HD's what exactly 1GB is, i think they even got a fine because they didn't on previous models. But in fact, the manufacturer was right in the first place: 1GB=1,000,000,000 byte, not 1,073,741,824 byte.



In long forgotten times, some strange computerscientist decided to use kilobyte=1,024 byte. Which is just plainly wrong.

It is equal to .5gb

512 mb=.5gb

1024mg=1gb

about half a gig, 1024 megs is one gig

1024 meg=1gig,1024gig=1terabyte,etc...

1000, as simple as it gets

A gigabyte (derived from the SI prefix giga-) is a unit of information or computer storage equal to one billion (that is, a thousand million) bytes.There are two slightly different definitions of the size of a gigabyte in use:



1,000,000,000 bytes or 109 bytes is the decimal definition used in telecommunications (such as network speeds) and most computer storage manufacturers (such as hard disks and flash drives). This usage is compatible with SI. Quotes from Seagate: "The storage industry standard is to display capacity in decimal"[1], and "One gigabyte, or GB, equals one billion bytes when referring to hard drive capacity"[2], and similar quotes are found on the websites of other storage manufacturers.

1,073,741,824 bytes, equal to 10243, or 230 bytes. This is the definition used for computer memory sizes, and most often used in computer engineering, computer science, and most aspects of computer operating systems. The IEC recommends that this unit should instead be called a gibibyte (abbreviated GiB), as it conflicts with SI units used for bus speeds and the like. HP states that Microsoft normally adheres to this definition [3]

There has been a lot of confusion in marketing literature concerning video compression. Most of the confusion stems from a misunderstanding of the math and the terms involved in compression calculations. What follows is a reasonably accurate method for correlating various ways of describing video compression. NOTE: This method may not allow accurate comparison with some manufacturer's hardware specifications, as their calculations have been found to be inaccurate by up to twenty five percent.





Aside from the basic math problems involved with compression calculations, the situation is further complicated by the different encoding methods used by various manufacturers. The following formulas are based on the broadcast specification known as the CC1R 601 recommendation. If the compression engine in question uses 4:1:1 or R170A as the basis for encoding, it then becomes far more difficult to make a comparison between that engine and true broadcast-quality compression engines. Essentially, that kind of compression engine doesn't encode video at a high enough bandwidth to make it worthwhile.









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What Is A Meg, What is a Gig . . .





For solving simple calculations, a megabyte (MB) and a megabit (Mb) are usually assumed to be one million bytes or one million bits respectively. This is not the case. Because the lowest level a computer's digital logic operates on is base 2 (On or Off) basis, a megabyte is actually 220 bytes and a megabit is actually 220 bits.



220 may be calculated as:





2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 x 2 = 1,048,576 (decimal)





1 megabyte = 1,048,576 Bytes



(assuming 8 bits per byte, the following is also true)



1 megabyte = 8,388,608 Bits





Because of the 48,576 discrepancy between one million and one meg, the preceding values must be used when calculating compression factors, drive usage and data throughput.





Since a megabyte is 220 , a gigabyte is 1024 times a megabyte or 230. This may be calculated as above giving the result:





1 gigabyte = 1,073,741,824 Bytes



(assuming 8 bits per byte, the following is also true)



1 gigabyte = 8,589,934,592 Bits





If this is the case, the error between one billion and one gig is 73,741,824 making it important to use the actual value of a gig when solving compression equations.





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CCIR 601 Uncompressed Video (Method One)



Resolution - 720 x 486 x 29.97 frames per second (Fps) (720 x 243 x 59.94 fields per second - fps)



Sample Size - 8 bits per byte data representation



Sampling - 4:2:2 (or every two horizontal pixels = 2 Y : 1 Cr : 1 Cb)



Frame Rate - 29.97 Frames Per Second





Therefore:





Luminance (Y) 720 x 486 x 29.97 Fps = 10,487,102.4 bytes per second



x 8 bits per byte = 83,896,819.2 bits per second



Chrominance R (Cr) 360 x 486 x 29.97 Fps = 5,243,551.2 bytes per second



x 8 bits per byte = 41,948,409.6 bits per second



Chrominance B (Cb) 360 x 486 x 29.97 Fps = 5,243,551.2 bytes per second



x 8 bits per byte = 41,948,409.6 bits per second





Total = 20,974,204.8 bytes per second



= 167,793,638.4 bits per second





To convert these values into megabytes and megabits, divide them by 220 (1,048,576):





CCIR 601 Megabytes/second 20,974,205 / 1,048,576 = 20.00256062 (Roughly 20 MB/s)



CCIR 601 Megabits/second 167,793,638 / 1,048,576 = 160.020483 (Roughly 160 Mb/s)





CCIR 601 Uncompressed Video (Method Two)



One Line 720 pixels (Y) + 360 pixels (R-Y) = 1440 samples (bytes) per line



One Frame 486 lines per frame x 1440 bytes per line = 699,840 bytes per frame



One Second 699,840 x 29.97 Fps = 20,974,204.8 bytes per second



8 bits per Byte 20974,204.8 x 8 = 167,793,638.4 bits per second





To convert these values into megabytes and megabits, divide them by 220 (1,048,576):





CCIR 601 Megabytes/Second 20,974,205 / 1,048,576 = 20.00256062 (Roughly 20 MB/s)



CCIR 601 Megabits/Second 167,793,638 / 1,048,576 = 160.020483 (Roughly 160 Mb/s)





As you can see, both methods resolve to the same values. For the remainder of this addendum, the following will be true:



Video Data Rate In Bytes = 20 MB/s = 20.00256062 bytes per second



Video Data Rate In Bits = 160 Mb/s = 160.020483 bits per second



Video Ratio = 1:1 = 20 MB/s : 20 MB/s = 20/20







CCIR Uncompressed Video For PAL



Note: The calculations above will be valid for PAL video with the following changes:



PAL Video Rate is 25 Frames Per Second (50 fields) instead of 29.97



PAL Horizontal Resolution is 576 lines per frame instead of 486





One Line 720 pixels (Y) + 360 pixels (R-Y) + 306 pixels (B-Y) = 1440 samples (bytes) per line



One Frame 576 lines per frame x 1440 bytes per line = 829,440 bytes per frame



One Second 829,440 x 25 Fps = 20,736,000 bytes per second



8 Bits Per Byte 20,736,000 x 8 = 165,888,000 bits per second





To convert these values into megabytes and megabits, divide them by 220 (1,048,576):





CCIR 601 Megabytes/second 20,736,000 / 1,048,576 = 19.7753063 (Roughly 20 MB/s)



CCIR 601 Megabits/second 165,888,000 / 1,048,576 = 158.203125 (Roughly 158 Mb/s)







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CD Quality Uncompressed Audio



Sample Size - 16 bit (2 byte) data representation



Channels - 2 channels



Sampling Rate - 44,100 Samples Per Second





Therefore:





One Channel - 2 bytes per sample x 44,100 samples per second = 88,200 bytes per second



Total Data Rate - 88,200 bytes per second x 2 channels = 176,400 bytes per second



Total Bit Rate - 176,400 bytes per second x 8 bits per byte = 1,411,200 bits per sample





For the remainder of this addendum, the following will be true:





Audio Data Rate In Bytes = 0.17 MB/s = 176,400 bytes per second



Audio Data Rate In Bits = 1.41 Mb/s =1,411,200 bits per second



Audio Ratio = 1:1=0.17 MB/s : 0.17 MB/S= 0.17/0.17







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Total Audio and Video Data Rate



The total data rate or throughput is simply the audio and video throughputs added together. For the remainder of this addendum one video channel and two audio channels are assumed and the following will be true for uncompressed data:





Total Data Rate in Bytes = 20 MB/s + 0.17 MB/s = 20.2 MB/s (21,150,605 bytes/second)



Total Data Rate in Bits = 160 Mb/s + 1.41 Mb/s = 161 Mb/s (169,204,838 bits/second)



Total Ratio = 1:1 = 20.2 Mb/S: 20.2 Mb/S = 20.2 / 20.2







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Compression As Megs Per Second



When compression is described as megabytes or megabits per second it can be difficult to correlate between different compression vendor's math methods. Assuming the throughput is calculated as above (which is a very large assumption in most cases), the following formulae may be used to convert between descriptions.



MegaByte <=> MegaBit



1 megabyte = 8 megabits (most current compression technologies work with 8 bit samples)



e.g. 6 megabytes per second == 48 megabits per second





MegaByte =>Compression Ratio



The ratio of a megabyte or megabit throughput can be calculated by dividing the appropriate value for uncompressed video by the specified data rate.



e.g. 8 megabytes per second = 8,388,608 bytes per second



Uncompressed Video = 20,974,205 bytes per second



The Ratio is 20,974,205 / 8,388.608 = 2.500320077



The Ratio is 2.5:1





Megabyte per second => Minutes Per Gig



To convert megabytes per second to minutes per gigabyte, express the date rate as



megabytes per minute, then divide 1024 megabytes/gigabyte by the data rate in megabytes per minute.



e.g. convert 20 MB/s to minute per gigabyte (no audio)



20 MB per second x 60 seconds per minute = 1200 MB per minute



1024 MB per gigabyte / 1200 MB per minute = 0.853 minutes per gigabyte



e.g. convert 20.2 MB/s to minute per gigabyte (plus audio)



20.2 MB per second x 60 seconds per minute = 1212 MB per minute



1024 MB per gigabyte / 12120 MB per minute = 0.845 minutes per gigabyte







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Compression As a Ratio



When a manufacturer specifies a compression ratio without any other supporting data, you should be wary. Depending on how the manufacturer calculated the size of uncompressed video, how the numbers were rounded, and how the compressed stream was measured, the ratio may be anywhere from fairly accurate to completely absurd. Whenever possible, find out the data rate in megabytes per second and calculate the ratio yourself. If the data rate is unavailable, make sure it was calculated based on 4:2:2 CCIR 601 encoding practices and that the frame/field size and rate match the above.





Ratio => Megabytes Per Second



The data rate in megabytes per second can be calculated by dividing the uncompressed video data rate value by the compression ratio.



e.g. 9:1 compression



Uncompressed Video data rate = 20,974,205 bytes per second



20,974,205 bytes per second / 9 = 2,330,468 bytes per second



2,330,468 / 1,048,576 = 2.2 megabytes per second



For Megabits per second, use the formula below



2,330,468 x 8 / 1,048,576 = 17.8 Megabits per second





Ratio => Minutes Per Gigabyte (No Audio)



To convert a ratio to the amount of time that can be recorded per gigabyte of hard drive space, simply use the total amount of time available for uncompressed video per gigabyte, and multiply by the ratio. To calculate the time for uncompressed video per gig:



One gigabyte = 1,073,741,824 Bytes



Uncompressed video = 20,974,205 Bytes per second



1,073,741,824 Bytes per Gig / 20,974,205 B/s = 51.19344566 seconds per Gig



51.19344566 / 60 seconds per minute = 0.85 minutes per Gig



e.g. 6:1 compression = 6 times the storage of uncompressed



6 x 51.19344566 seconds per Gig = 307.160674 seconds per Gig



307.160674 / 60 seconds per minute = 5.1 minutes per Gig







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Compression As Minutes Per Gigabyte (storage)



This calculation is normally accurate because once you buy the system it is easily checked. Simply set the hardware to its highest quality and record until you fill the drive, then divide the total number of seconds recorded by the drive's size in gigabytes and compare it to the specified number. This specification may also be used to compare overall throughput with other compression systems.





Minutes Per Gigabyte => Megabytes Per Second



To calculate the data rate in megabytes per second from minutes per gigabyte, simply convert



minutes per Gigabyte to seconds per Megabyte



e.g. 4 minutes per Gigabyte * 60 seconds per minute = 240 Seconds per Gigabyte



1024 Megabytes per Gigabyte / 240 seconds per Gigabyte = 4.27 Megabyte per second







Minutes Per Gigabyte => Ratio



To calculate the compression ratio given the number of minutes per gigabyte, simply use the number of uncompressed minutes that can be stored in a gigabyte and divide that into the number specified.



One gigabyte = 1,073,741,824 Bytes



Uncompressed Video = 20,974,205 Bytes per second



1,073,741,824 / 20,974,205 = 51.19344566 seconds per Gig



51.19344566 / 60 seconds per minute = 0.85322409 minutes per Gig



e.g. 7 Minutes Per Gig = 420 seconds per Gig



420 / 51.19344566 = 8.204175253



or



7 / 0 .85322409 = 8.204175253



The ratio is 8.2:1