Lines Matching full:space

67 space for inodes,
76 bytes of space in the cylinder group, expecting this
94 the space between the beginning of the cylinder group
107 would have to leave an empty space between the end of
131 A uniformly large block size wastes space.
133 block size on the amount of wasted space in the file system.
138 about 920 megabytes of formatted space.
145 Space used	% waste	Organization
154 Table 1 \- Amount of wasted space as a function of block size.
157 The space wasted is calculated to be the percentage of space
176 records the space available in a cylinder group
209 space for a small amount of data,
222 Space is allocated to a file when a program does a \fIwrite\fP
228 in which case space would already have been allocated.
233 There is enough space left in an already allocated
235 The new data is written into the available space.
239 contains insufficient space to hold the new data).
240 If space exists in a block already allocated,
241 the space is filled with new data.
251 The remaining new data is written into the located space.
254 fragments contain insufficient space to hold the new data).
268 are written into the allocated space.
292 The amount of wasted space in the 4096/1024 byte new file system
296 has about the same amount of wasted space as the 512 byte
298 The new file system uses less space
301 large files and the same amount of space
304 more space for keeping track of available free blocks.
312 the free space reserve, that
327 files until the amount of free space once again
330 free space may be restored by moving their data once enough
331 space is available.
332 The free space reserve must be added to the
338 with the free space reserve set at 5%.
340 to 6.9% waste + 5% reserved space in the
471 the local cylinder group may run out of space
514 quickly use up available space in the cylinder group,
516 Further, using all the space in a cylinder group
582 10% free space rarely use this strategy.
584 space typically have so few free blocks that almost any