Replacement for regular GPIO (DigitalIn, DigitalOut, DigitalInOut) classes which has superior speed.
Dependents: Eavesdropper BitstreamGenerator SimpleDecimationFilter 11U68_MP3Player with TFTLCD ... more
Introduction
FastIO is a library which is largely compatible with standard mbed GPIO functions, but which provides superior speed. The code is based on Igor's earlier work (http://mbed.org/users/igorsk/notebook/fast-gpio-with-c-templates/), with three main differences: port functions are currently not available (this might change in the future), it is ported to many more targets than the original, and instead of only DigitalOut, all options from DigitalInOut are implemented.
FastIO uses a template for the pin number which is connected to the FastInOut object instead of an argument to the constructor like the regular DigitalInOut uses. The important difference between those two is that the value of a template is known by the compiler at compile time, while the supplied pin for regular DigitalInOut is only known at run-time. This allows the compiler to add more optimizations. The only limitations this introduces is that you cannot at run-time choose which pin is used (which would be an extremely rare use case).
You can start by trying out the test bench program, this should work for every supported target (you might need to update the FastIO lib):
Import programFastIO_TestBench
Testbench for FastIO
Currently the following targets are supported:
- LPC1768
- LPC11uXX
- LPC11XX
- LPC81X
- KLXXz
- K20D50M
- KSDK (K22F, K64F)
- NUCLEO F401RE/F411RE
- NUCLEO F030R8
- EFM32 (Gecko's)
- NRF51822
Unsupported targets
This library has the nice feature that it also supports unsupported targets. Obviously these do not get the speed advantage of FastIO, but in case your target is not supported, it will automatically use regular DigitalInOut instead. So if you integrate it in another library it will also work on targets which are not supported by FastIO.
A warning message is printed in the compiler if it reverts back to DigitalInOut.
Performance
The main goal is to have a faster, more efficient alternative to regular mbed GPIO functions, so lets compare that. As of library version 86, the mbed library contains extra debug code that is as of yet not possible to be disabled (in the online compiler in a suitable way). This slows DigitalInOut down compared to older versions, but does not affect FastIO. This is, depending on the function, roughly a factor 2 difference: mbed version 86 is twice as slow as version 85.
Five different performance figures are measured:
- Fixed write(pin.write(1);)
- Variable write (pin.write(val);)
- Reading the pin state and comparing it (if (pin.read() == 0) break;)
- Toggling a pin using operators (pin= !pin;)
- Switching between input and output (pin.output(); pin.input();)
While there are other use cases, these should cover the most used ones. Storing the read value is not included, but should have a fairly similar result. Just comparing it is an easy way to make sure the operation cannot be (partially) optimized away by the compiler, although it results in a longer time than what is actually used by purely the read operation. The main goal of FastIO is to have fast writing, reading, and toggling between input and output (for bidirectional lines), fast construction and mode switching is preferred, but not as important.
The following table shows the time used by fastIO, and also as percentage compared to regular DigitalInOut, this will scale with your clock frequency:
Target | Fixed write | Variable write | Read | Operator toggling | Input/output mode |
---|---|---|---|---|---|
LPC1768 (96MHz) | 21ns (29%) | 78ns (68%) | 52ns (100%) | 52ns (28%) | 52ns (26%) |
LPC11uXX (48MHz) | 83ns (38%) | 135ns (39%) | 208ns (60%) | 219ns (25%) | 146ns (19%) |
LPC11XX (48MHz) | 104 ns (16%) | 177ns (22%) | 125ns (29%) | 240ns (18%) | 156ns (12%) |
LPC81X (12MHz) | 229ns (28%) | 583ns (31%) | 583ns (100%) | 708ns (27%) | 479ns (20%) |
KLXXz (48MHz) | 78ns (54%) | 146ns (78%) | 83ns (100%) | 187ns (38%) | 78ns (17%) |
K20D50M (48MHz) | 135ns (41%) | 188ns (47%) | 104ns (42%) | 321ns (37%) | 156ns (17%) |
KSDK (120MHz) | 33ns (4%) | 62ns (7%) | 42ns (14%) | 117ns (10%) | 33ns (4%) |
NUCLEO F4X1RE (84MHz) | 24ns (27%) | 83ns (62%) | 60ns (100%) | 60ns (27%) | 60ns (5%) |
NUCLEO F030R8 (48MHz) | 68ns (33%) | 115ns (36%) | 125ns (100%) | 188ns (39%) | 141ns (5%) |
EFM32 (Wonder Gecko) (48MHz) | 78ns (22%) | 146ns (40%) | 188ns (64%) | 218ns (23%) | 250ns (10%) |
NRF51822 (16MHz) | 183ns (20%) | 339ns (25%) | 372ns (40%) | 525ns (21%) | 183ns (7%) |
Note that these numbers are from the specific testbench, which highly depends on which optimizations the compiler decides to make. So for your situation it can be different, for example I have seen the write speed change after changes to the read code. Mbed standard write speed also depends on the library version. Since not all targets are supported in older versions I stopped tracking that speed (was also too much effort). If you want to know the comparison for a certain library version, run the testbench on that version.
Usage
The library contains three classes you can use:
FastInOut<PinName> your_name; FastOut<PinName, initial_state> your_name; FastIn<PinName, initial_mode> your_name;
Initial_state is by default 0 (so output low) and is optional, initial_mode is by default PullDefault, and is optional. Some examples:
FastOut<LED1> led; //FastOut object for LED1, will default to output low FastIn<D5, PullUp> input; //FastIn object for D5, with by default PullUps enabled
Contrary to regular DigitalIn/DigitalOut, FastIn/FastOut can use all functions available to DigitalInOut/FastInOut. The only difference between the three FastIO classes is the initial conditions: FastInOut doesn't set any initial conditions, and the current state of the uC will be maintained. FastOut sets it as output, either high or low, and FastIn as input, with or without pullups/pulldowns enabled. Afterwards you can change your FastIn to an output using simply .output().
For other examples you can look at the test bench code.
History
Fixed bug in enabling of port hardware of the F030 (via: https://developer.mbed.org/users/viquiram/)
2016-09-20, by Sissors [Tue, 20 Sep 2016 20:41:42 +0000] rev 22
Fixed bug in enabling of port hardware of the F030 (via: https://developer.mbed.org/users/viquiram/)
Add support to Nucleo L073RZ platform.
2016-09-20, by viquiram [Tue, 20 Sep 2016 09:28:40 +0000] rev 21
Add support to Nucleo L073RZ platform.
Initial version for the NRF51822. I am reasonably sure it works, but with lacking an LED on my board or a logic analyzer it might have issues :).
2016-05-17, by Sissors [Tue, 17 May 2016 20:06:23 +0000] rev 20
Initial version for the NRF51822. I am reasonably sure it works, but with lacking an LED on my board or a logic analyzer it might have issues :).
Added LPC43XX(4337)
2016-02-05, by nameless129 [Fri, 05 Feb 2016 14:47:23 +0000] rev 19
Added LPC43XX(4337)
Added LPC11U6x(11U68)
2015-07-29, by nameless129 [Wed, 29 Jul 2015 10:40:07 +0000] rev 18
Added LPC11U6x(11U68)
Fixed some of the child class problems, C++ templates are a pain. In general just use FastInOut
2015-07-11, by Sissors [Sat, 11 Jul 2015 14:38:29 +0000] rev 17
Fixed some of the child class problems, C++ templates are a pain. In general just use FastInOut
EFM32 fully supported (I guess, their GPIO is really a pain to use).
2015-07-11, by Sissors [Sat, 11 Jul 2015 14:27:43 +0000] rev 16
EFM32 fully supported (I guess, their GPIO is really a pain to use).
Initial EFM32 support. FastIn and FastOut child classes seem to be broken yet again. EFM32 has broken mode switching (don't blame me for their GPIO being a pain to use).
2015-07-09, by Sissors [Thu, 09 Jul 2015 21:11:39 +0000] rev 15
Initial EFM32 support. FastIn and FastOut child classes seem to be broken yet again. EFM32 has broken mode switching (don't blame me for their GPIO being a pain to use).
Fixed Nucleo F4 for latest mbed lib which just had to change the CMSIS register names.
2015-05-17, by Sissors [Sun, 17 May 2015 20:21:41 +0000] rev 14
Fixed Nucleo F4 for latest mbed lib which just had to change the CMSIS register names.
Generalized it to all STMF4 platforms. (Holy crap the F407 is fast)
2015-05-17, by Sissors [Sun, 17 May 2015 10:48:26 +0000] rev 13
Generalized it to all STMF4 platforms. (Holy crap the F407 is fast)