SPRUII0F May 2019 – June 2024 TMS320F28384D , TMS320F28384D-Q1 , TMS320F28384S , TMS320F28384S-Q1 , TMS320F28386D , TMS320F28386D-Q1 , TMS320F28386S , TMS320F28386S-Q1 , TMS320F28388D , TMS320F28388S
FILE: cla_ex7_shared_resource_handling.c
This example showcases how to handle shared resource challenges across C28x and CLA. As the peripherals are shared between CLA and the CPU, overlapping read-modify-write to the registers by them can lead to data race conditions ultimately leading to data violation or incorrect functionality. In this example, CPU ISR and CLA tasks runs independently. CPU ISR gets triggered by EPWM4 @10KHz and toggles the EPWM1B output via software by controlling CSFB bits of AQCSFRC. CLA task gets triggered by EPWM5 @100Khz and toggles the EPWM1A output via software by controlling CSFA bits of AQCSFRC. Thus in this process both CPU and CLA do read-modify -write to AQCSFRC register independently at different frequencies so there is chance of race condition and updates due to one of them can get lost/. overwritten. This can be clearly observed by updating "phase_shift_ON" to 0U and probing the EPWM1A and 1B outputs on a scope.
This is a standard critical section problem and can be handled by software handshaking mechanism like mutex etc. But most of the real-time control applications are time-sensitive and cannot afford addition software overhead hence this example suggests an alternative hardware based technique to avoid shared resource conflicts between CPU and CLA. The phase shifting mechanism of the EPWM modules is utilized to schedule the CLA task and CPU ISR as desired. EPWM4 generates a synchronous pulse every ZERO event and provides a phase shift of 20 cycles to EPWM5. This way both CLA task and C28x ISR runs at original frequencies i.e. 100KHz and 10KHz but CLA task leads with a phase offset of 20 cycles wrt CPU ISR. Hence concurrent read-modify-writes to AQCSFRC never happens and the EPWM1A and EPWM1B outputs behave as desired i.e. consistent 50 KHz PWM output on EPWM1A and 5 KHz PWM output on EPWM1B with a duty ~50% on both should be generated. In order to utilize this phase shifting mechanism in this example, please make sure "phase_shift_ON" is set to 1.
External Connections
Note :- The phase offset value can easily be configured by updating TBPHS register to schedule the CLA task and C28x ISR as desired depending upon the application need so as to avoid overlapping register writes by CPU and CLA
Note :- The optimization is on and set to O2 for the project and all the results quoted correspond to this case.