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" ; shift 20 local display_list="$1" 21 while read display width_mm height_mm width height ; do 22 if [[ "$display" == "$find_display" ]] ; then 23 echo ${width}x${height} 24

 ./smg2000 -n 90 90 90" [openss]: pcsamp experiment using the pcsamp experiment default sampling rate: "100". [openss]: Using OPENSS_PREFIX installed in /home/jeg/chaos_4_x86_64_ib/opt/OSS-mrnet [openss

_record 13 14 counter_limit = 2000 15 16 ierr = -1 17 open(unit=8, file="test.bin", status="replace", & 18 action="readwrite", form="unformatted", & 19 iostat=ierr) 20

(different from Raspberry Pi), and 2.5 or 10 Gigabit Ethernet (GbE). The card is 60x69.6mm (about 2.4x2.84 inches), which makes it a little taller than a credit card and a bit over 1U (Figure 4

Attaching an iSCSI Device $ uname -a Linux DANSBOX 6.8.0-35-generic #35-Ubuntu SMP PREEMPT_DYNAMIC Mon May 20 15:51:52 UTC 2024 x86_64 x86_64 x86_64 GNU/Linux $ lsblk NAME MAJ:MIN RM SIZE RO TYPE

_record; 14 int counter_limit; 15 16 counter_limit = 100; 17 18 for ( counter=1; counter <= counter_limit; counter++) 19 { 20 my_record.x = counter; 21 my_record.y = counter + 1

FILE *ptr_myfile; 16 17 counter_limit = 100; 18 19 ptr_myfile=fopen("test.bin","wb"); 20 if (!ptr_myfile) 21 { 22 printf("Unable to open file!"); 23 return 1; 24 } 25 for ( counter=1; counter <= counter

: Tegra X1: 25.6GBps memory bandwidth HDMI 2.0 and HDCP 2.2 10W power Peak performance: 1,024GFLOPS with FP16; 512GFLOPS with FP32 ARM Cortex CPUs: Quad-core 64-bit ARM Cortex-A57 ... 25

with the /accepteula option, which can be useful in scripting. Unfortunately, this option does not work for all of the Sysinternal tools. The programs only run on a Windows system as of Windows 2000 Server

This first article of a series looks at the forces that have driven desktop supercomputing, beginning with the history of PC and supercomputing processors through the 1990s into the early 2000s. ... 1992 i486DX2 2:1 clock multiplier, 40/20, 50/25, 66/33 speeds; L2 on MB Mar 1994 i486DX4 3:1 clock multiplier, 75/25, 100/33 speeds; 16KB L1 cache on-die, L2 ... This first article of a series looks at the forces that have driven desktop supercomputing, beginning with the history of PC and supercomputing processors through the 1990s into the early 2000s.