Have you guys looked into CTN hosting for an expanded TS index? The bandwidth is shit but if you’d have told me you could crank out 6.4 ghc’s at a 3-to-1 ratio I’d have called you a goddamned liar back in 2017.
That said, the R-W mainframe is really where we could get the p-rating up to a faster clip. I historically have steered clear of anything with a semi static Vector rating below 12 on the Tinson Scale, but the newest model has me rethinking that a bit.
Originally Posted by Dante84:
Have you guys looked into CTN hosting for an expanded TS index? The bandwidth is shit but if you’d have told me you could crank out 6.4 ghc’s at a 3-to-1 ratio I’d have called you a goddamned liar back in 2017.
That said, the R-W mainframe is really where we could get the p-rating up to a faster clip. I historically have steered clear of anything with a semi static Vector rating below 12 on the Tinson Scale, but the newest model has me rethinking that a bit.
Originally Posted by Dante84:
Have you guys looked into CTN hosting for an expanded TS index? The bandwidth is shit but if you’d have told me you could crank out 6.4 ghc’s at a 3-to-1 ratio I’d have called you a goddamned liar back in 2017.
That said, the R-W mainframe is really where we could get the p-rating up to a faster clip. I historically have steered clear of anything with a semi static Vector rating below 12 on the Tinson Scale, but the newest model has me rethinking that a bit.
Anyways, that’s my two cents.
If they increase the transistor modules and reverse the amps going to the mainframe couplet, you can probably get a lot faster speeds. [Reply]
Originally Posted by -King-:
If they increase the transistor modules and reverse the amps going to the mainframe couplet, you can probably get a lot faster speeds.
No doubt. Seems like these guys should have figured that out, but lucky for them they have us to weigh in on the situation. [Reply]
Originally Posted by -King-:
If they increase the transistor modules and reverse the amps going to the mainframe couplet, you can probably get a lot faster speeds.
Bolster 12 Husk Nuts to each girdle jerry, while flex tandems press a task apparatus of ten vertically composited patch hamplers. Then pin flam-fastened pan traps at both maiden apexes of the jimjoints [Reply]
Originally Posted by Baby Lee:
Bolster 12 Husk Nuts to each girdle jerry, while flex tandems press a task apparatus of ten vertically composited patch hamplers. Then pin flam-fastened pan traps at both maiden apexes of the jimjoints
Originally Posted by TLO:
The whistles go WOOOOOOOO
Whenever fluorescence score motion is required, it may also be employed in conjunction with a drawn reciprocation dingle arm to reduce sinusoidal depleneration. [Reply]