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/*
* cpu - sa1100 . c : clock scaling for the SA1100
*
* Copyright ( C ) 2000 2001 , The Delft University of Technology
*
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* Authors :
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* - Johan Pouwelse ( J . A . Pouwelse @ its . tudelft . nl ) : initial version
* - Erik Mouw ( J . A . K . Mouw @ its . tudelft . nl ) :
* - major rewrite for linux - 2.3 .99
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* - rewritten for the more generic power management scheme in
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* linux - 2.4 .5 - rmk1
*
* This software has been developed while working on the LART
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* computing board ( http : //www.lartmaker.nl/), which is
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* sponsored by the Mobile Multi - media Communications
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* ( http : //www.mobimedia.org/) and Ubiquitous Communications
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* ( http : //www.ubicom.tudelft.nl/) projects.
*
* The authors can be reached at :
*
* Erik Mouw
* Information and Communication Theory Group
* Faculty of Information Technology and Systems
* Delft University of Technology
* P . O . Box 5031
* 2600 GA Delft
* The Netherlands
*
*
* 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 .
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*
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* 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
*
*
* Theory of operations
* = = = = = = = = = = = = = = = = = = = =
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*
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* Clock scaling can be used to lower the power consumption of the CPU
* core . This will give you a somewhat longer running time .
*
* The SA - 1100 has a single register to change the core clock speed :
*
* PPCR 0x90020014 PLL config
*
* However , the DRAM timings are closely related to the core clock
* speed , so we need to change these , too . The used registers are :
*
* MDCNFG 0xA0000000 DRAM config
* MDCAS0 0xA0000004 Access waveform
* MDCAS1 0xA0000008 Access waveform
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* MDCAS2 0xA000000C Access waveform
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*
* Care must be taken to change the DRAM parameters the correct way ,
* because otherwise the DRAM becomes unusable and the kernel will
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* crash .
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*
* The simple solution to avoid a kernel crash is to put the actual
* clock change in ROM and jump to that code from the kernel . The main
* disadvantage is that the ROM has to be modified , which is not
* possible on all SA - 1100 platforms . Another disadvantage is that
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* jumping to ROM makes clock switching unnecessary complicated .
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*
* The idea behind this driver is that the memory configuration can be
* changed while running from DRAM ( even with interrupts turned on ! )
* as long as all re - configuration steps yield a valid DRAM
* configuration . The advantages are clear : it will run on all SA - 1100
* platforms , and the code is very simple .
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*
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* If you really want to understand what is going on in
* sa1100_update_dram_timings ( ) , you ' ll have to read sections 8.2 ,
* 9.5 .7 .3 , and 10.2 from the " Intel StrongARM SA-1100 Microprocessor
* Developers Manual " (available for free from Intel).
*
*/
# include <linux/kernel.h>
# include <linux/types.h>
# include <linux/init.h>
# include <linux/cpufreq.h>
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# include <linux/io.h>
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# include <asm/cputype.h>
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# include <mach/generic.h>
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# include <mach/hardware.h>
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struct sa1100_dram_regs {
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int speed ;
u32 mdcnfg ;
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u32 mdcas0 ;
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u32 mdcas1 ;
u32 mdcas2 ;
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} ;
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static struct cpufreq_driver sa1100_driver ;
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static struct sa1100_dram_regs sa1100_dram_settings [ ] = {
/*speed, mdcnfg, mdcas0, mdcas1, mdcas2, clock freq */
{ 59000 , 0x00dc88a3 , 0xcccccccf , 0xfffffffc , 0xffffffff } , /* 59.0 MHz */
{ 73700 , 0x011490a3 , 0xcccccccf , 0xfffffffc , 0xffffffff } , /* 73.7 MHz */
{ 88500 , 0x014e90a3 , 0xcccccccf , 0xfffffffc , 0xffffffff } , /* 88.5 MHz */
{ 103200 , 0x01889923 , 0xcccccccf , 0xfffffffc , 0xffffffff } , /* 103.2 MHz */
{ 118000 , 0x01c29923 , 0x9999998f , 0xfffffff9 , 0xffffffff } , /* 118.0 MHz */
{ 132700 , 0x01fb2123 , 0x9999998f , 0xfffffff9 , 0xffffffff } , /* 132.7 MHz */
{ 147500 , 0x02352123 , 0x3333330f , 0xfffffff3 , 0xffffffff } , /* 147.5 MHz */
{ 162200 , 0x026b29a3 , 0x38e38e1f , 0xfff8e38e , 0xffffffff } , /* 162.2 MHz */
{ 176900 , 0x02a329a3 , 0x71c71c1f , 0xfff1c71c , 0xffffffff } , /* 176.9 MHz */
{ 191700 , 0x02dd31a3 , 0xe38e383f , 0xffe38e38 , 0xffffffff } , /* 191.7 MHz */
{ 206400 , 0x03153223 , 0xc71c703f , 0xffc71c71 , 0xffffffff } , /* 206.4 MHz */
{ 221200 , 0x034fba23 , 0xc71c703f , 0xffc71c71 , 0xffffffff } , /* 221.2 MHz */
{ 235900 , 0x03853a23 , 0xe1e1e07f , 0xe1e1e1e1 , 0xffffffe1 } , /* 235.9 MHz */
{ 250700 , 0x03bf3aa3 , 0xc3c3c07f , 0xc3c3c3c3 , 0xffffffc3 } , /* 250.7 MHz */
{ 265400 , 0x03f7c2a3 , 0xc3c3c07f , 0xc3c3c3c3 , 0xffffffc3 } , /* 265.4 MHz */
{ 280200 , 0x0431c2a3 , 0x878780ff , 0x87878787 , 0xffffff87 } , /* 280.2 MHz */
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{ 0 , 0 , 0 , 0 , 0 } /* last entry */
} ;
static void sa1100_update_dram_timings ( int current_speed , int new_speed )
{
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struct sa1100_dram_regs * settings = sa1100_dram_settings ;
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/* find speed */
while ( settings - > speed ! = 0 ) {
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if ( new_speed = = settings - > speed )
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break ;
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settings + + ;
}
if ( settings - > speed = = 0 ) {
panic ( " %s: couldn't find dram setting for speed %d \n " ,
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__func__ , new_speed ) ;
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}
/* No risk, no fun: run with interrupts on! */
if ( new_speed > current_speed ) {
/* We're going FASTER, so first relax the memory
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* timings before changing the core frequency
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*/
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/* Half the memory access clock */
MDCNFG | = MDCNFG_CDB2 ;
/* The order of these statements IS important, keep 8
* pulses ! !
*/
MDCAS2 = settings - > mdcas2 ;
MDCAS1 = settings - > mdcas1 ;
MDCAS0 = settings - > mdcas0 ;
MDCNFG = settings - > mdcnfg ;
} else {
/* We're going SLOWER: first decrease the core
* frequency and then tighten the memory settings .
*/
/* Half the memory access clock */
MDCNFG | = MDCNFG_CDB2 ;
/* The order of these statements IS important, keep 8
* pulses ! !
*/
MDCAS0 = settings - > mdcas0 ;
MDCAS1 = settings - > mdcas1 ;
MDCAS2 = settings - > mdcas2 ;
MDCNFG = settings - > mdcnfg ;
}
}
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static int sa1100_target ( struct cpufreq_policy * policy , unsigned int ppcr )
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{
unsigned int cur = sa11x0_getspeed ( 0 ) ;
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unsigned int new_freq ;
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new_freq = sa11x0_freq_table [ ppcr ] . frequency ;
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if ( new_freq > cur )
sa1100_update_dram_timings ( cur , new_freq ) ;
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PPCR = ppcr ;
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if ( new_freq < cur )
sa1100_update_dram_timings ( cur , new_freq ) ;
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return 0 ;
}
static int __init sa1100_cpu_init ( struct cpufreq_policy * policy )
{
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return cpufreq_generic_init ( policy , sa11x0_freq_table , CPUFREQ_ETERNAL ) ;
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}
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static struct cpufreq_driver sa1100_driver __refdata = {
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. flags = CPUFREQ_STICKY | CPUFREQ_NEED_INITIAL_FREQ_CHECK ,
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. verify = cpufreq_generic_frequency_table_verify ,
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. target_index = sa1100_target ,
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. get = sa11x0_getspeed ,
. init = sa1100_cpu_init ,
. name = " sa1100 " ,
} ;
static int __init sa1100_dram_init ( void )
{
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if ( cpu_is_sa1100 ( ) )
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return cpufreq_register_driver ( & sa1100_driver ) ;
else
return - ENODEV ;
}
arch_initcall ( sa1100_dram_init ) ;