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Ok, so I'm reading a binary file into a char array I've allocated with malloc. (btw the code here isn't the actual code, I just wrote it on the spot to demonstrate, so any mistakes here are probably not mistakes in the actual program.) This method reads at about 50million bytes per second.

main

char *buffer = (char*)malloc(file_length_in_bytes*sizeof(char));
memset(buffer,0,file_length_in_bytes*sizeof(char));
//start time here
read_whole_file(buffer);
//end time here
free(buffer);

read_whole_buffer

void read_whole_buffer(char* buffer)
{
  //file already opened
  fseek(_file_pointer, 0, SEEK_SET);
  int a = sizeof(buffer[0]);
  fread(buffer, a, file_length_in_bytes*a, _file_pointer);
}

I've written something similar with managed c++ that uses filestream I believe and the function ReadByte() to read the entire file, byte by byte, and it reads at around 50million bytes per second.

Also, I have a sata and an IDE drive in my computer, and I've loading the file off of both, doesn't make any difference at all(Which is weird because I was under the assumption that SATA read much faster than IDE.)

Question

Maybe you can all understand why this doesn't make any sense to me. As far as I knew, it should be much faster to fread a whole file into an array, as opposed to reading it byte by byte. On top of that, through testing I've discovered that managed c++ is slower (only noticeable though if you are benchmarking your code and you require speed.)

SO

Why in the world am I reading at the same speed with both applications. Also is 50 million bytes from a file, into an array quick?

Maybe I my motherboard is bottle necking me? That just doesn't seem to make much sense eather.

Is there maybe a faster way to read a file into an array?

thanks.

My 'script timer'

Records start and end time with millisecond resolution...Most importantly it's not a timer

#pragma once
#ifndef __Script_Timer__
    #define __Script_Timer__
    #include <sys/timeb.h>
    extern "C"
    {
    	struct Script_Timer
    	{
    		unsigned long milliseconds;
    		unsigned long seconds;
    		struct timeb start_t;
    		struct timeb end_t;
    	};
    	void End_ST(Script_Timer *This)
    	{
    		ftime(&This->end_t);
    		This->seconds = This->end_t.time - This->start_t.time;
    		This->milliseconds = (This->seconds * 1000) + (This->end_t.millitm - This->start_t.millitm);
    	}
    	void Start_ST(Script_Timer *This)
    	{
    		ftime(&This->start_t);
    	}  
    }
#endif

Read buffer thing

char face = 0;
char comp = 0;
char nutz = 0;
for(int i=0;i<(_length*sizeof(char));++i)
{
	face = buffer[i];
	if(face == comp)
		nutz = (face + comp)/i;
	comp++;
}
share|improve this question
    
If you want to further optimize your program, consider multiple buffers and threading. One thread is filling buffers with data while another thread is processing incoming data. The amount of buffers necessary depends on the speed of processing the data. In general, you want to process one buffer while another buffer is filled. Two buffers is minimal, three or more would be ideal. –  Thomas Matthews Dec 14 '09 at 18:35
    
I'm sorry but that isn't a very good idea, considering that it's generally quicker to process a buffer than it is to fill it, so your buffer would fill, and you would read the whole thing, then you'd have to wait for the buffer to fill again...you would AT LEAST be limited to the maximum speed you can read the file. It would defeat the whole purpose in my opinion. –  kelton52 Dec 15 '09 at 3:51

3 Answers 3

up vote 1 down vote accepted

Transfers from or to main memory run at speeds of gigabytes per second. Inside the CPU data flows even faster. It is not surprising that, whatever you do at the software side, the hard drive itself remains the bottleneck.

Here are some numbers from my system, using PerformanceTest 7.0:

  • hard disk: Samsung HD103SI 5400 rpm: sequential read/write at 80 MB/s
  • memory: 3 * 2 GB at 400 MHz DDR3: read/write around 2.2 GB/s

So if your system is a bit older than mine, a hard drive speed of 50 MB/s is not surprising. The connection to the drive (IDE/SATA) is not all that relevant; it's mainly about the number of bits passing the drive heads per second, purely a hardware thing.

Another thing to keep in mind is your OS's filesystem cache. It could be that the second time round, the hard drive isn't accessed at all.

The 180 MB/s memory read speed that you mention in your comment does seem a bit on the low side, but that may well depend on the exact code. Your CPU's caches come into play here. Maybe you could post the code you used to measure this?

share|improve this answer
    
Even though I have one SATA drive and one IDE drive? I should notice SOME difference if the hard drive was the bottle neck, correct? –  kelton52 Dec 13 '09 at 12:55
    
Also, the fastest I've been able to read bytes from an array was about 180 million bytes per second, far from gigabytes. I feel like I'm missing a lot of speed I could be using, and I need all that I can find. Any suggestions for that? –  kelton52 Dec 13 '09 at 12:59
    
Too much to say for a comment. I'll edit my answer, hang on... –  Thomas Dec 13 '09 at 13:19
    
I'm pretty sure you're right about the hard drives being the bottleneck now. Thank you. And i rewrote a 'read from buffer' and it doesn't even seem to register on my timer. The biggest file I opened was 700 megs. Didn't even see a millisecond tick. Doesn't seem right. I'll post my code for that also. –  kelton52 Dec 13 '09 at 14:14
    
The bottleneck is not the hard drive, but the communication channel between the program and the hard drive. There are USB, SATA and other protocols to setup as well as data and address bus sharing on the PC. Also, if the data file is fragmented, the drive will have to make more than one access. –  Thomas Matthews Dec 14 '09 at 18:29

The FILE* API uses buffered streams, so even if you read byte by byte, the API internally reads buffer by buffer. So your comparison will not make a big difference.

The low level IO API (open, read, write, close) is unbuffered, so using this one will make a difference.

It may also be faster for you, if you do not need the automatic buffering of the FILE* API!

share|improve this answer
    
Yeah I tested that, and it gave me 1-5 extra million bytes per second...relatively not much of a gain. The biggest gain I've had so far is about 10-15 MBps by slicing my buffer into smaller pieces, around 4096 Byte a piece. I also squared the size and noticed no definate change. –  kelton52 Dec 13 '09 at 13:49
1  
4k is good buffer size for various reasons, also you should use gettimeofday() for your timer on unix/linux and QueryPerformanceCounter on windows. An upvote would be nice :) –  Frunsi Dec 13 '09 at 14:03
    
I explored both QueryPerfomanceCounter and gettimeofday, and neither would fit my specific needs. As far as I know the solution I came up with for the timing is actually pretty sound and reliable. –  kelton52 Dec 13 '09 at 14:11
    
Well, it may be sufficient here, but the resolution of ftime() is about 10ms on windows (though it looks like it would be 1ms). –  Frunsi Dec 13 '09 at 14:44
    
well does dettimeofday() catch milliseconds? I've only ran across examples for getting seconds. –  kelton52 Dec 13 '09 at 22:06

I've done some tests on this, and after a certain point, the effect of increased buffer size goes down the bigger the buffer. There is usually an optimum buffer size you can find with a bit of trial and error.

Note also that fread() (or more specifically the C or C++ I/O library) will probably be doing its own buffering. If your system suports it a plain read() may (or may not) be a bit faster.

share|improve this answer
    
In a sense then I'd have to create a buffer, with smaller buffers, such as buffer[5][4096]? –  kelton52 Dec 13 '09 at 12:54
    
I think you are right about the buffering, but is there a way to read a file without the read function buffering? –  kelton52 Dec 13 '09 at 13:00
    
As I said, try using te read() function, rather than fread(), or try using other OS features, such as the Win32 ReadFile() API.. –  anon Dec 13 '09 at 13:05
    
I did see a slight improvement of about 1-5 million characters per second. –  kelton52 Dec 13 '09 at 13:11

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