tools/omap/clocks_get_m_n.c - github/trini/u-boot - Gitiles

 /*
  * Program for finding M & N values for DPLLs
  * To be run on Host PC
  *
  * (C) Copyright 2010
  * Texas Instruments, <www.ti.com>
  *
  * Aneesh V <aneesh@ti.com>
  *
  * See file CREDITS for list of people who contributed to this
  * project.
  *
  * This program is free software; you can redistribute it and/or
  * modify it under the terms of the GNU General Public License as
  * published by the Free Software Foundation; either version 2 of
  * the License, or (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
  * MA 02111-1307 USA
  */
 #include <stdlib.h>
 #include <stdio.h>
 typedef unsigned int u32;
 #define MAX_N	127

 /*
  * get_m_n_optimized() - Finds optimal DPLL multiplier(M) and divider(N)
  * values based on the reference frequency, required output frequency,
  * maximum tolerance for output frequency etc.
  *
  * target_freq_khz - output frequency required in KHz
  * ref_freq_khz - reference(input) frequency in KHz
  * m - pointer to computed M value
  * n - pointer to computed N value
  * tolerance_khz - tolerance for the output frequency. When the algorithm
  * succeeds in finding vialble M and N values the corresponding output
  * frequency will be in the range:
  *	[target_freq_khz - tolerance_khz, target_freq_khz]
  *
  * Formula:
  *	Fdpll = (2 * M * Fref) / (N + 1)
  *
  * Considerations for lock-time:
  *	- Smaller the N, better lock-time, especially lock-time will be
  *	- For acceptable lock-times:
  *		Fref / (M + 1) >= 1 MHz
  *
  * Considerations for power:
  *	- The difference in power for different N values giving the same
  *	  output is negligible. So, we optimize for lock-time
  *
  * Hard-constraints:
  *	- N can not be greater than 127(7 bit field for representing N)
  *
  * Usage:
  *	$ gcc clocks_get_m_n.c
  *	$ ./a.out
  */
 int get_m_n_optimized(u32 target_freq_khz, u32 ref_freq_khz, u32 *m, u32 *n,
 			u32 tolerance_khz)
 {
 	u32 min_freq = target_freq_khz - tolerance_khz;
 	u32 max_freq = target_freq_khz;
 	u32 freq, freq_old;
 	*n = 1;
 	while (1) {
 		*m = min_freq / ref_freq_khz / 2 * (*n) ;
 		freq_old = 0;
 		while (1) {
 			freq = ref_freq_khz * 2 * (*m) / (*n);
 			if (abs(target_freq_khz - freq_old) <=
 				abs(target_freq_khz - freq)) {
 				freq = freq_old;
 				(*m)--;
 				break;
 			}
 			(*m)++;
 			freq_old = freq;
 		}
 		if (freq >= min_freq && freq <= max_freq)
 			break;
 		(*n)++;
 		if ((*n) > MAX_N + 1) {
 			printf("ref %d m %d n %d target %d : ",
 				ref_freq_khz, *m, *n, target_freq_khz);
 			printf("can not find m & n - please consider"
 				" increasing tolerance\n");
 			return -1;
 		}
 	}
 	(*n)--;
 	printf("ref %d m %d n %d target %d locked %d\n",
 		ref_freq_khz, *m, *n, target_freq_khz, freq);
 	if ((ref_freq_khz / (*n + 1)) < 1000) {
 		printf("\tREFCLK - CLKINP/(N+1) is less than 1 MHz - less than"
 			" ideal, locking time will be high!\n");
 	}
 	return 0;
 }

 void main(void)
 {
 	u32 m, n;
 	printf("\nMPU - 2000000\n");
 	get_m_n_optimized(2000000, 12000, &m, &n, 0);
 	get_m_n_optimized(2000000, 13000, &m, &n, 0);
 	get_m_n_optimized(2000000, 16800, &m, &n, 800);
 	get_m_n_optimized(2000000, 19200, &m, &n, 0);
 	get_m_n_optimized(2000000, 26000, &m, &n, 0);
 	get_m_n_optimized(2000000, 27000, &m, &n, 0);
 	get_m_n_optimized(2000000, 38400, &m, &n, 0);

 	printf("\nMPU - 1200000\n");
 	get_m_n_optimized(1200000, 12000, &m, &n, 0);
 	get_m_n_optimized(1200000, 13000, &m, &n, 0);
 	get_m_n_optimized(1200000, 16800, &m, &n, 800);
 	get_m_n_optimized(1200000, 19200, &m, &n, 0);
 	get_m_n_optimized(1200000, 26000, &m, &n, 0);
 	get_m_n_optimized(1200000, 27000, &m, &n, 0);
 	get_m_n_optimized(1200000, 38400, &m, &n, 0);

 	printf("\nMPU - 1584000\n");
 	get_m_n_optimized(1584000, 12000, &m, &n, 0);
 	get_m_n_optimized(1584000, 13000, &m, &n, 0);
 	get_m_n_optimized(1584000, 16800, &m, &n, 400);
 	get_m_n_optimized(1584000, 19200, &m, &n, 0);
 	get_m_n_optimized(1584000, 26000, &m, &n, 0);
 	get_m_n_optimized(1584000, 27000, &m, &n, 0);
 	get_m_n_optimized(1584000, 38400, &m, &n, 0);

 	printf("\nCore 1600000\n");
 	get_m_n_optimized(1600000, 12000, &m, &n, 0);
 	get_m_n_optimized(1600000, 13000, &m, &n, 0);
 	get_m_n_optimized(1600000, 16800, &m, &n, 200);
 	get_m_n_optimized(1600000, 19200, &m, &n, 0);
 	get_m_n_optimized(1600000, 26000, &m, &n, 0);
 	get_m_n_optimized(1600000, 27000, &m, &n, 0);
 	get_m_n_optimized(1600000, 38400, &m, &n, 0);

 	printf("\nPER 1536000\n");
 	get_m_n_optimized(1536000, 12000, &m, &n, 0);
 	get_m_n_optimized(1536000, 13000, &m, &n, 0);
 	get_m_n_optimized(1536000, 16800, &m, &n, 0);
 	get_m_n_optimized(1536000, 19200, &m, &n, 0);
 	get_m_n_optimized(1536000, 26000, &m, &n, 0);
 	get_m_n_optimized(1536000, 27000, &m, &n, 0);
 	get_m_n_optimized(1536000, 38400, &m, &n, 0);

 	printf("\nIVA 1862000\n");
 	get_m_n_optimized(1862000, 12000, &m, &n, 0);
 	get_m_n_optimized(1862000, 13000, &m, &n, 0);
 	get_m_n_optimized(1862000, 16800, &m, &n, 0);
 	get_m_n_optimized(1862000, 19200, &m, &n, 900);
 	get_m_n_optimized(1862000, 26000, &m, &n, 0);
 	get_m_n_optimized(1862000, 27000, &m, &n, 0);
 	get_m_n_optimized(1862000, 38400, &m, &n, 800);

 	printf("\nABE 196608 sys clk\n");
 	get_m_n_optimized(196608, 12000, &m, &n, 700);
 	get_m_n_optimized(196608, 13000, &m, &n, 200);
 	get_m_n_optimized(196608, 16800, &m, &n, 700);
 	get_m_n_optimized(196608, 19200, &m, &n, 400);
 	get_m_n_optimized(196608, 26000, &m, &n, 200);
 	get_m_n_optimized(196608, 27000, &m, &n, 900);
 	get_m_n_optimized(196608, 38400, &m, &n, 0);

 	printf("\nABE 196608 32K\n");
 	get_m_n_optimized(196608000/4, 32768, &m, &n, 0);

 	printf("\nUSB 1920000\n");
 	get_m_n_optimized(1920000, 12000, &m, &n, 0);
 	get_m_n_optimized(1920000, 13000, &m, &n, 0);
 	get_m_n_optimized(1920000, 16800, &m, &n, 0);
 	get_m_n_optimized(1920000, 19200, &m, &n, 0);
 	get_m_n_optimized(1920000, 26000, &m, &n, 0);
 	get_m_n_optimized(1920000, 27000, &m, &n, 0);
 	get_m_n_optimized(1920000, 38400, &m, &n, 0);

 	printf("\nCore ES1 1523712\n");
 	get_m_n_optimized(1524000, 12000, &m, &n, 100);
 	get_m_n_optimized(1524000, 13000, &m, &n, 0);
 	get_m_n_optimized(1524000, 16800, &m, &n, 0);
 	get_m_n_optimized(1524000, 19200, &m, &n, 0);
 	get_m_n_optimized(1524000, 26000, &m, &n, 0);
 	get_m_n_optimized(1524000, 27000, &m, &n, 0);

 	/* exact recommendation for SDPs */
 	get_m_n_optimized(1523712, 38400, &m, &n, 0);

 }
	/*
	* Program for finding M & N values for DPLLs
	* To be run on Host PC
	*
	* (C) Copyright 2010
	* Texas Instruments, <www.ti.com>
	*
	* Aneesh V <aneesh@ti.com>
	*
	* See file CREDITS for list of people who contributed to this
	* project.
	*
	* This program is free software; you can redistribute it and/or
	* modify it under the terms of the GNU General Public License as
	* published by the Free Software Foundation; either version 2 of
	* the License, or (at your option) any later version.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
	* MA 02111-1307 USA
	*/
	#include <stdlib.h>
	#include <stdio.h>
	typedef unsigned int u32;
	#define MAX_N 127

	/*
	* get_m_n_optimized() - Finds optimal DPLL multiplier(M) and divider(N)
	* values based on the reference frequency, required output frequency,
	* maximum tolerance for output frequency etc.
	*
	* target_freq_khz - output frequency required in KHz
	* ref_freq_khz - reference(input) frequency in KHz
	* m - pointer to computed M value
	* n - pointer to computed N value
	* tolerance_khz - tolerance for the output frequency. When the algorithm
	* succeeds in finding vialble M and N values the corresponding output
	* frequency will be in the range:
	* [target_freq_khz - tolerance_khz, target_freq_khz]
	*
	* Formula:
	* Fdpll = (2 * M * Fref) / (N + 1)
	*
	* Considerations for lock-time:
	* - Smaller the N, better lock-time, especially lock-time will be
	* - For acceptable lock-times:
	* Fref / (M + 1) >= 1 MHz
	*
	* Considerations for power:
	* - The difference in power for different N values giving the same
	* output is negligible. So, we optimize for lock-time
	*
	* Hard-constraints:
	* - N can not be greater than 127(7 bit field for representing N)
	*
	* Usage:
	* $ gcc clocks_get_m_n.c
	* $ ./a.out
	*/
	int get_m_n_optimized(u32 target_freq_khz, u32 ref_freq_khz, u32 m, u32 n,
	u32 tolerance_khz)
	{
	u32 min_freq = target_freq_khz - tolerance_khz;
	u32 max_freq = target_freq_khz;
	u32 freq, freq_old;
	*n = 1;
	while (1) {
	m = min_freq / ref_freq_khz / 2 (*n) ;
	freq_old = 0;
	while (1) {
	freq = ref_freq_khz * 2 * (m) / (n);
	if (abs(target_freq_khz - freq_old) <=
	abs(target_freq_khz - freq)) {
	freq = freq_old;
	(*m)--;
	break;
	}
	(*m)++;
	freq_old = freq;
	}
	if (freq >= min_freq && freq <= max_freq)
	break;
	(*n)++;
	if ((*n) > MAX_N + 1) {
	printf("ref %d m %d n %d target %d : ",
	ref_freq_khz, m, n, target_freq_khz);
	printf("can not find m & n - please consider"
	" increasing tolerance\n");
	return -1;
	}
	}
	(*n)--;
	printf("ref %d m %d n %d target %d locked %d\n",
	ref_freq_khz, m, n, target_freq_khz, freq);
	if ((ref_freq_khz / (*n + 1)) < 1000) {
	printf("\tREFCLK - CLKINP/(N+1) is less than 1 MHz - less than"
	" ideal, locking time will be high!\n");
	}
	return 0;
	}

	void main(void)
	{
	u32 m, n;
	printf("\nMPU - 2000000\n");
	get_m_n_optimized(2000000, 12000, &m, &n, 0);
	get_m_n_optimized(2000000, 13000, &m, &n, 0);
	get_m_n_optimized(2000000, 16800, &m, &n, 800);
	get_m_n_optimized(2000000, 19200, &m, &n, 0);
	get_m_n_optimized(2000000, 26000, &m, &n, 0);
	get_m_n_optimized(2000000, 27000, &m, &n, 0);
	get_m_n_optimized(2000000, 38400, &m, &n, 0);

	printf("\nMPU - 1200000\n");
	get_m_n_optimized(1200000, 12000, &m, &n, 0);
	get_m_n_optimized(1200000, 13000, &m, &n, 0);
	get_m_n_optimized(1200000, 16800, &m, &n, 800);
	get_m_n_optimized(1200000, 19200, &m, &n, 0);
	get_m_n_optimized(1200000, 26000, &m, &n, 0);
	get_m_n_optimized(1200000, 27000, &m, &n, 0);
	get_m_n_optimized(1200000, 38400, &m, &n, 0);

	printf("\nMPU - 1584000\n");
	get_m_n_optimized(1584000, 12000, &m, &n, 0);
	get_m_n_optimized(1584000, 13000, &m, &n, 0);
	get_m_n_optimized(1584000, 16800, &m, &n, 400);
	get_m_n_optimized(1584000, 19200, &m, &n, 0);
	get_m_n_optimized(1584000, 26000, &m, &n, 0);
	get_m_n_optimized(1584000, 27000, &m, &n, 0);
	get_m_n_optimized(1584000, 38400, &m, &n, 0);

	printf("\nCore 1600000\n");
	get_m_n_optimized(1600000, 12000, &m, &n, 0);
	get_m_n_optimized(1600000, 13000, &m, &n, 0);
	get_m_n_optimized(1600000, 16800, &m, &n, 200);
	get_m_n_optimized(1600000, 19200, &m, &n, 0);
	get_m_n_optimized(1600000, 26000, &m, &n, 0);
	get_m_n_optimized(1600000, 27000, &m, &n, 0);
	get_m_n_optimized(1600000, 38400, &m, &n, 0);

	printf("\nPER 1536000\n");
	get_m_n_optimized(1536000, 12000, &m, &n, 0);
	get_m_n_optimized(1536000, 13000, &m, &n, 0);
	get_m_n_optimized(1536000, 16800, &m, &n, 0);
	get_m_n_optimized(1536000, 19200, &m, &n, 0);
	get_m_n_optimized(1536000, 26000, &m, &n, 0);
	get_m_n_optimized(1536000, 27000, &m, &n, 0);
	get_m_n_optimized(1536000, 38400, &m, &n, 0);

	printf("\nIVA 1862000\n");
	get_m_n_optimized(1862000, 12000, &m, &n, 0);
	get_m_n_optimized(1862000, 13000, &m, &n, 0);
	get_m_n_optimized(1862000, 16800, &m, &n, 0);
	get_m_n_optimized(1862000, 19200, &m, &n, 900);
	get_m_n_optimized(1862000, 26000, &m, &n, 0);
	get_m_n_optimized(1862000, 27000, &m, &n, 0);
	get_m_n_optimized(1862000, 38400, &m, &n, 800);

	printf("\nABE 196608 sys clk\n");
	get_m_n_optimized(196608, 12000, &m, &n, 700);
	get_m_n_optimized(196608, 13000, &m, &n, 200);
	get_m_n_optimized(196608, 16800, &m, &n, 700);
	get_m_n_optimized(196608, 19200, &m, &n, 400);
	get_m_n_optimized(196608, 26000, &m, &n, 200);
	get_m_n_optimized(196608, 27000, &m, &n, 900);
	get_m_n_optimized(196608, 38400, &m, &n, 0);

	printf("\nABE 196608 32K\n");
	get_m_n_optimized(196608000/4, 32768, &m, &n, 0);

	printf("\nUSB 1920000\n");
	get_m_n_optimized(1920000, 12000, &m, &n, 0);
	get_m_n_optimized(1920000, 13000, &m, &n, 0);
	get_m_n_optimized(1920000, 16800, &m, &n, 0);
	get_m_n_optimized(1920000, 19200, &m, &n, 0);
	get_m_n_optimized(1920000, 26000, &m, &n, 0);
	get_m_n_optimized(1920000, 27000, &m, &n, 0);
	get_m_n_optimized(1920000, 38400, &m, &n, 0);

	printf("\nCore ES1 1523712\n");
	get_m_n_optimized(1524000, 12000, &m, &n, 100);
	get_m_n_optimized(1524000, 13000, &m, &n, 0);
	get_m_n_optimized(1524000, 16800, &m, &n, 0);
	get_m_n_optimized(1524000, 19200, &m, &n, 0);
	get_m_n_optimized(1524000, 26000, &m, &n, 0);
	get_m_n_optimized(1524000, 27000, &m, &n, 0);

	/* exact recommendation for SDPs */
	get_m_n_optimized(1523712, 38400, &m, &n, 0);

	}