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105 lines
5.8 KiB
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105 lines
5.8 KiB
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Support for external RAM
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************************
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.. toctree::
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:maxdepth: 1
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Introduction
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============
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The ESP32 has a few hundred KiB of internal RAM, residing on the same die as the rest of the ESP32. For some purposes, this is insufficient,
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and therefore the ESP32 incorporates the ability to also use up to 4MiB of external SPI RAM memory as memory. The external memory is incorporated
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in the memory map and is, within certain restrictions, usable in the same way internal data RAM is.
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Hardware
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========
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The ESP32 supports SPI (P)SRAM connected in parallel with the SPI flash chip. While the ESP32 is capable of supporting several types
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of RAM chips, the ESP32 SDK at the moment only supports the ESP-PSRAM32 chip.
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The ESP-PSRAM32 chip is an 1.8V device, and can only be used in parallel with an 1.8V flash part. Make sure to either set the MTDI
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pin to a high signal level on bootup, or program the fuses in the ESP32 to always use a VDD_SIO level of 1.8V. Not doing this risks
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damaging the PSRAM and/or flash chip.
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To connect the ESP-PSRAM chip to the ESP32D0W*, connect the following signals:
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* PSRAM /CE (pin 1) - ESP32 GPIO 16
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* PSRAM SO (pin 2) - flash DO
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* PSRAM SIO[2] (pin 3) - flash WP
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* PSRAM SI (pin 5) - flash DI
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* PSRAM SCLK (pin 6) - ESP32 GPIO 17
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* PSRAM SIO[3] (pin 7) - flash HOLD
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* PSRAM Vcc (pin 8) - ESP32 VCC_SDIO
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Connections for the ESP32D2W* chips are TBD.
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.. NOTE::
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Espressif sells an ESP-WROVER module which contains an ESP32, 1.8V flash and the ESP-PSRAM32 integrated in a module, ready for inclusion
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on an end product PCB.
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Software
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========
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ESP-IDF fully supports integrating external memory use into your applications. ESP-IDF can be configured to handle external RAM in several ways:
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* Only initialize RAM. This allows the application to manually place data here by dereferencing pointers pointed at the external RAM memory
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region (0x3F800000 and up).
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* Initialize RAM and add it to the capability allocator. This allows a program to specifically allocate a chunk of external RAM using
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``heap_caps_malloc(size, MALLOC_CAP_SPIRAM)``. This memory can be used and subsequently freed using a normal ``free()`` call.
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* Initialize RAM, add it to the capability allocator and add memory to the pool of RAM that can be returned by ``malloc()``. This allows
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any application to use the external RAM without having to rewrite the code to use ``heap_caps_malloc``.
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All these options can be selected from the menuconfig menu.
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Restrictions
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------------
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The use of external RAM has a few restrictions:
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* When disabling flash cache (for example, because the flash is being written to), the external RAM also becomes inaccessible; any reads from or
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writes to it will lead to an illegal cache access exception. This is also the reason that ESP-IDF will never allocate a tasks stack in external
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RAM.
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* External RAM cannot be used as a place to store DMA transaction descriptors or as a buffer for a DMA transfer to read from or write into. Any
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buffers that will be used in combination with DMA must be allocated using ``heap_caps_malloc(size, MALLOC_CAP_DMA)`` (and can be freed using a
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standard ``free()`` call.)
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* External RAM uses the same cache region as the external flash. This means that often accessed variables in external RAM can be read and
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modified almost as quickly as in internal ram. However, when accessing large chunks of data (>32K), the cache can be insufficient and speeds
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will fall back to the access speed of the external RAM. Moreover, accessing large chunks of data can 'push out' cached flash, possibly making
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execution of code afterwards slower.
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* External RAM cannot be used as task stack memory; because of this, xTaskCreate and similar functions will always allocate internal memory
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for stack and task TCBs and xTaskCreateStatic-type functions will check if the buffers passed are internal. However, for tasks not calling
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on code in ROM in any way, directly or indirectly, the menuconfig option :ref:`CONFIG_SPIRAM_ALLOW_STACK_EXTERNAL_MEMORY` will eliminate
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the check in xTaskCreateStatic, allowing task stack in external RAM. Using this is not advised, however.
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Because there are a fair few situations that have a specific need for internal memory, but it is also possible to use malloc() to exhaust
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internal memory, there is a pool reserved specifically for requests that cannot be resolved from external memory; allocating task
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stack, DMA buffers and memory that stays accessible when cache is disabled is drawn from this pool. The size of this pool is configurable
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in menuconfig.
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Chip revisions
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==============
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There are some issues with certain revisions of the ESP32 that have repercussions for use with external RAM. These are documented in the ESP32
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ECO_ document. In particular, ESP-IDF handles the bugs mentioned in the following ways:
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ESP32 rev v0
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------------
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ESP-IDF has no workaround for the bugs in this revision of silicon, and it cannot be used to map external PSRAM into the ESP32s main memory map.
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ESP32 rev v1
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------------
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The bugs in this silicon revision introduce a hazard when certain sequences of machine instructions operate on external memory locations (ESP32 ECO 3.2).
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To work around this, the gcc compiler to compile ESP-IDF has been expanded with a flag: ``-mfix-esp32-psram-cache-issue``. With this flag passed to gcc
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on the command line, the compiler works around these sequences and only outputs code that can safely be executed.
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In ESP-IDF, this flag is enabled when you select :ref:`CONFIG_SPIRAM_CACHE_WORKAROUND`. ESP-IDF also takes other measures to make
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sure no combination of PSRAM access plus the offending instruction sets are used: it links to a version of Newlib recompiled with the gcc flag, doesn't use
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some ROM functions and allocates static memory for the WiFi stack.
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.. _ECO: https://www.espressif.com/sites/default/files/documentation/eco_and_workarounds_for_bugs_in_esp32_en.pdf
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