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using_arm_caches [2014/05/31 21:06]
bain
using_arm_caches [2014/06/11 12:40] (current)
bain
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   * ARM Cortex-A9 Technical Reference Manual [[http://​infocenter.arm.com/​help/​topic/​com.arm.doc.ddi0388i/​index.html|Cortex-A9 TRM]]   * ARM Cortex-A9 Technical Reference Manual [[http://​infocenter.arm.com/​help/​topic/​com.arm.doc.ddi0388i/​index.html|Cortex-A9 TRM]]
   * ARM Cortex-A9 MPCore Technical Reference Manual [[http://​infocenter.arm.com/​help/​topic/​com.arm.doc.ddi0407i/​index.html|Cortex-A9 MPCore TRM]]   * ARM Cortex-A9 MPCore Technical Reference Manual [[http://​infocenter.arm.com/​help/​topic/​com.arm.doc.ddi0407i/​index.html|Cortex-A9 MPCore TRM]]
-  * Level 2 Cache Controller (L2C-310) Technical Reference Manual [[http://​infocenter.arm.com/​help/​index.jsp?topic=/​com.arm.doc.ddi0246e/​index.html|L2C-310 TRM]]+  * Level 2 Cache Controller (L2C-310) Technical Reference Manual [[http://​infocenter.arm.com/​help/​topic/​com.arm.doc.ddi0246h/​index.html|L2C-310 TRM]]
  
 The ARM processor in the Cyclone V has both L1 and L2 caches. The ARM processor in the Cyclone V has both L1 and L2 caches.
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 Several steps are involved when turning on the MMU: Several steps are involved when turning on the MMU:
-  - Disable caches and branch predictor +== 1. Disable caches and branch predictor ​== 
-  ​Invalidate instruction,​ data, and unified TLBsL1 instruction and data caches, and branch predictor array +  ​* Clear I, C, and Z bits in SCTLR using MRC/MCR instructions. 
-  ​- ​Set up translation table entries + 
-  - Set translation table control registers +== 2. Invalidate Everything == 
-  - Set domain access control register +It is important to invalidate caches, TLBs, etc. because once the MMU is turned on, and address translation begins, the cache entries, etc. will no longer be valid. 
-  ​Enable the MMU + 
-Once these steps are complete the L1 caches, and branch predictor can be turned on.+The following steps should be taken: 
 +  * Invalidate instruction,​ data, and unified TLBs
 +  * Invalidate ​L1 instruction and data caches
 +  * Invalidate ​branch predictor array. 
 + 
 +== 3. Set up translation table entries ​== 
 +The Cortex-A9 MPCore processor allows for two levels of translation tables. 
 +For simplicity only Level 1 translation tables are used. 
 +A flat one-to-one mapping is used where virtual addresses are mapped to the same physical address. 
 +This is done using 1MB '​sections'​. 
 +Since the address space is 4GB, this requires 4096 translation table entries. 
 +The L1 translation table must be aligned 16kB aligned in the memory. 
 + 
 +  ​* Use 1MB sections 
 +  * Set TEX[2:0], C, and B bits to use outer and inner write-back for normal memory (SDRAM) 
 +  * Set TEX[2:0], C, and B bits to use non-shareable device memory for memory-mapped peripherals 
 +  * Set AP[1:0] bits to allow read and write access 
 +  * Set the domain to 0 (or whatever) 
 +  * Set the section base address of each table entry to point to the appropriate 1MB section of physical memory 
 + 
 +== 4. Set translation table control registers ​== 
 +  ​* Set Translation Table Base Control Register (TTBCR) to 0 so that TTBR0 is used 
 +  * Set TTBR0 to point to the L1 translation table, and to use inner and outer write-back, write-allocate cacheable memory for translation table walks 
 + 
 +== 5. Set domain access control register ​== 
 +  ​* Set DACR to client or master mode for the domain(s) you used in the translation table entries. 
 + 
 +== 6. Enable the MMU == 
 +  * Set M bit in SCTLR using MCR/MRC instructions. 
 + 
 +Once these steps are complete the L1 caches, and branch predictor can be turned on by setting the I, C, and Z bits in the SCTLR.
  
  
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 Several other options area available as well. Several other options area available as well.
 Both the Cortex-A9 TRM and L2C-310 TRM (linked above) outline several optimizations for L2 memory accesses. Both the Cortex-A9 TRM and L2C-310 TRM (linked above) outline several optimizations for L2 memory accesses.
 +[[http://​infocenter.arm.com/​help/​topic/​com.arm.doc.ddi0246h/​CJACBHHB.html|Link]].
  
 The following features are available when using the L2C-310 cache controller with a Cortex-A9 MPCore processor: The following features are available when using the L2C-310 cache controller with a Cortex-A9 MPCore processor:
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 These features were all tested during benchmarking;​ however, none of them seemed to offer any performance gains. These features were all tested during benchmarking;​ however, none of them seemed to offer any performance gains.
 Further investigation may may be required to make the best use of these options. Further investigation may may be required to make the best use of these options.
- 
  
  
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 +====== Source Code ======
 +This investigation resulted in two files: arm_cache.h and arm_cache.s that together provide functions to turn on the MMU and caches on the ARM Cortex-A9 MPCore in the Altera Cyclone V SoC.
 +
 +   * [[https://​www.dropbox.com/​s/​l2mzqzfq3089emj/​arm_cache.h | arm_cache.h]]
 +   * [[https://​www.dropbox.com/​s/​tq6y2yod3p26yui/​arm_cache.s | arm_cache.s]]
  
  
using_arm_caches.1401584814.txt.gz · Last modified: 2014/05/31 21:06 by bain