As sad as it is, I get 90% of my algorithm work done with sorted arrays and binary search. Rarely I need more fancy stuff.
if these kinds of optimizations make a difference for your applications write it in native code, dammitl
file-cache and system load jitter. That's it.
For me it was the TMS320C64x+ There are newer versions of that chip out there with floating point support. The glory instruction set reference is here: https://www.ti.com/lit/ug/spru732j/spru732j.pdf
It's alive and kicking on the Texas Instruments DSP chips. You can get incredible performance out of them, but you pay with horrible compile times. To give you a taste what these chips do: - 64 registers, 8 execution…
As sad as it is, I get 90% of my algorithm work done with sorted arrays and binary search. Rarely I need more fancy stuff.
if these kinds of optimizations make a difference for your applications write it in native code, dammitl
file-cache and system load jitter. That's it.
For me it was the TMS320C64x+ There are newer versions of that chip out there with floating point support. The glory instruction set reference is here: https://www.ti.com/lit/ug/spru732j/spru732j.pdf
It's alive and kicking on the Texas Instruments DSP chips. You can get incredible performance out of them, but you pay with horrible compile times. To give you a taste what these chips do: - 64 registers, 8 execution…