This is the only thing I know thats the cause of corrupted memorystick files. Try looking on google to see how a fake memory stick looks like. Where did you get your memory stick? I remember I tried to look for a 16GB everywhere and I could only find fake ones. I really don't know what to do The 6.20/6.35PROB5 supposed to have the high memory stick bug fix implemented into it. iso, I have tried fiddling around with the select menu, and running Inferno or M33, but the same problems are happening. Each time I try again I format my memory stick, copy the two folders over to ms0/PSP/GAME, run it and press "x", and then put games into ms0/ISO. I am pretty sure I'm doing every hing right.
I'm about to throw my PSP at the wall I'm so frustrated, any help would be greatly appreciated!
With B5, the Update and Recovery files show up as corrupted data, so I cannot even install it.
Some get 10 minutes in and then when a loading screen pops up it doesn't finish loading, it just stays at the loading screen, but it isn't frozen. With B4, Every game I have works, but they don't seem to load properly. With B3, only DBZSB2 worked, every other game I had showed up as "Corrupted Data", even though they were in the right directory and the right file type.
I have a PSP 3002, with a 16 GB memory stick, and am having different problems with the different versions of Pro 6.35. I really don't know what to doĪshTJ wrote:Hey, I'm new to the PSP hacking scene and need a bit of help regarding 6.35 Pro B3/4/5. Based on the results, it was proposed that the resistance to fracture-dominated wear could be taken into account for developing low-wear transition-metal nitride coatings.Hey, I'm new to the PSP hacking scene and need a bit of help regarding 6.35 Pro B3/4/5.
The enhanced wear resistance of the VSiN could be mainly attributed to their special nanocomposite structure that limited intergranular cracks, and then suppressed fracture-dominated wear.
For the VN coating mild wear transited to fatigue failure after ~10 4 sliding cycles with crack growth and propagation, whereas the VSiN coatings retained mild wear more than 10 5 cycles, in which the sliding wear proceeded predominately by tribo-oxidation removal mechanism. The friction-wear behavior was studied by ball-on-plate sliding tests against Al 2O 3 balls (3 or 6 mm in diameter), followed by microscopic examination on the worn surfaces. Here, we prepared VSiN coatings by adding Si into VN coatings, and investigated the friction-wear behavior of the VSiN coatings which achieved wear rates on the 10 −17 m 3/N m order of magnitude. The reported wear rates of TM–Si–N coatings are generally greater than 10 −16 m 3/N m. Although Si addition into transition metal nitrides has been long known to enhance hardness of coatings, relatively less evidence indicates that the hardness gain can be translated into a significant improvement of wear resistance as expected.