1 000 000 -one million (or 1 044 576 if you want to be sticky).
bit- byte- kilo- mega- giga- tera- peta- exa- zetta- yotta-
One exabyte plus one! The next prefix, is zetta. 1 zettabyte = 1000 exabyte.
1024 amos byte = 1 pectrol byte
Exa Corporation (EXA) had its IPO in 2012.
After terrabytes, you get:petabytesexabyteszettabytesyottabytesPussabytesHertzbytesTriaobytesNo more bytesEach one is 1024 times bigger than the previous unit.
As of July 2014, the market cap for Exa Corporation (EXA) is $124,756,108.56.
The symbol for Exa Corporation in NASDAQ is: EXA.
1 Byte and 1 Byte = 8 bits
Currently, commercial computers (sold at hardware stores to normal customers) mostly contain hard disk that have a capacity around 500 gb, for desktops, and 120gb for notebooks. The 500gb could sometimes even be 1TB for desktops IMPROVED: As of this response (7/21/2010) the largest HDDs in production are 1.5 TB for 3.5" and 4.5 TB for external/array packages. However technology is in prototype with up to 4.5 TB 3.5" available relatively soon (within a couple years). The largest memory modules in commercial production are 16 GB DDR2 sticks, though only 4GB sticks are common for end-users. The largest SSDs available are currently around the 500 GB mark, and rediculously expensive. The largest EEPROMs are 64 MB single-chip The largest SRAM caches are 8 MB single-chip The highest commercial density storage is Blu-Ray with 25 GB per layer (50 GB dual-layer), but with HVDs and PSDs on the way. The largest tape drive is an astounding 12 TB 14.5" tape from IBM The largest Flash single-chip module is 512 MB (of course much bigger can be made combining chips, as almost all flash devices do) Largest SD card is 64 GB Largest single-CPU cache combination structure is 12,928 KB Largest CPU register bank is 4096 bits Largest HDD buffer is 32 MB Largest sequential tape memory is 1 GB Largest video card is 8 GB And that's all I know for the moment. (Whew, that took some research!)
Exa Corp. was created in 1992.
Big-endian byte ordering in Motorola microprocessors is significant because it determines the way data is stored in memory. In big-endian systems, the most significant byte of a multi-byte data is stored at the lowest memory address, which can impact data manipulation and communication with other systems.