MB
max = MAXB / MB;
mul = MB;
if (MB)
u_int MB;
MB = extract_field(instr, 20, 5);
snprintf(lbuf, sizeof (lbuf), "%d", MB);
u_int MB;
MB = extract_field(instr, 20, 5);
snprintf(lbuf, sizeof (lbuf), "%d", MB);
if ((phdr.p_vaddr & (4 * MB - 1)) == 0)
align = 4 * MB;
phdr.p_memsz = roundup(phdr.p_memsz, 4 * MB);
16 MB,
1, { 8 MB, 0 }, { 8 MB, 0 },
32 MB,
1, { 16 MB, 0 }, { 8 MB, 0 },
1, { 24 MB, 0 }, { 8 MB, 0 },
32 MB,
1, { 16 MB, 0 }, { 8 MB, 0 },
1, { 24 MB, 0 }, { 8 MB, 0 },
4 MB,
1, { 2 MB, 0 }, { 1 MB, 0 },
4 MB,
1, { 2 MB, 0 }, { 2 MB, 0 },
8 MB,
1, { 4 MB, 0 }, { 2 MB, 0 },
1, { 6 MB, 0 }, { 2 MB, 0 },
16 MB,
2, { 8 MB, 12 MB }, { 2 MB, 2 MB },
2, { 10 MB, 14 MB }, { 2 MB, 2 MB },
16 MB,
1, { 8 MB, 0 }, { 4 MB, 0 },
len = MB(1) - (LOWMEM_KB * 1024);
if (mem_bytes <= MB(4)) {
vmc->vmc_memranges[2].vmr_size = MB(4);
if (mem_bytes > PCI_MMIO_BAR_BASE - MB(1)) {
above_1m = PCI_MMIO_BAR_BASE - MB(1);
vmc->vmc_memranges[2].vmr_gpa = MB(1);
vmc->vmc_memranges[4].vmr_size = MB(4);
if (size > (off_t)MB(4)) {
lower_sz = MB(1) - (LOWMEM_KB * 1024);
off = MB(1) - lower_sz;
if (vmc->vmc_memranges[i].vmr_gpa == MB(1) &&
vmc->vmc_memranges[i].vmr_size > (15 * MB(1)))
memlo = vmc->vmc_memranges[i].vmr_size - (15 * MB(1));