On 5/19/2010 4:37 PM, Sripathy, Vishwanath wrote:
Hi Benoit,
-----Original Message-----
From: Cousson, Benoit
Sent: Wednesday, May 19, 2010 8:00 PM
To: Sripathy, Vishwanath
Cc: Gulati, Shweta; linux-omap@vger.kernel.org
Subject: Re: [PATCH V2] OMAP3: PM: Workaround for DPLL3 Lock issue
On 5/19/2010 3:50 PM, Sripathy, Vishwanath wrote:
Hi Benoit,
-----Original Message-----
From: Cousson, Benoit
Sent: Wednesday, May 19, 2010 5:28 PM
To: Gulati, Shweta
Cc: linux-omap@vger.kernel.org; Sripathy, Vishwanath
Subject: Re: [PATCH V2] OMAP3: PM: Workaround for DPLL3 Lock issue
Hi Vishwa,
On 5/13/2010 12:12 PM, shweta gulati wrote:
From: Vishwanath Sripathy<vishwanath...@ti.com>
OMAP3430/3630 has a Silicon bug because of which SDRC is
released from IDLE even before Core DPLL has locked. This leads
to undefined behaviour of SDRC DLL.
This patch has workaround for the same.
Description of WA for 3430:
Initialization:
Disable DPLL3 automatic mode by default. Issue will not be faced as
DPLL3
is always locked.
Before CORE Voltage Domain (VDD2) Sleep Transition to RETENTION or OFF
mode:
1. Reduce DPLL3 M2 Frequency to get L3 running at OPP2 Frequency
(by changing M2 Divider value). This is increasing the period duration
of
one L3 clock cycle.
o In case of CORE is at OPP3 (166...@1.15v):
" Lower the frequency to 83MHz.
o In case of CORE is at OPP2 (83...@1.05v):
" Keep the frequency as it is (83MHz).
2. Increase CORE Voltage to 1.2V. This is reducing the timing duration of
the
critical path signal which will now fit to one L3 clock cycle.
3. Enable DPLL3 Automatic mode. This will ensure proper transition to
RETENTION or OFF mode.
After CORE Voltage Domain Wakeup Transition from RETENTION or OFF mode:
1. Disable DPLL3 Automatic mode.
2. Restore previous DPLL3 M2 Frequency and CORE Voltage values.
Description of WA for 3630:
Initialization:
Disable DPLL3 automatic mode by default. Issue will not be faced as
DPLL3 is
always locked.
Before CORE Voltage Domain(VDD2) Sleep Transition to RETENTION or OFF
mode:
1. Reduce DPLL3 M2 Frequency to get L3 running at OPP50 Frequency
(by changing M2 Divider value) and set VDD2 Voltage for OPP100.
This is increasing the period duration of one L3 clock cycle and
reducing
the timing duration of the critical path signal which will now fit to
one
L3 clock cycle.
o In case of CORE is at OPP100 (L3=200MHz, VDD2=1.1375V):
" Lower the frequency to 100MHz.
" Keep the voltage as it is (1.1375V).
o In case of CORE is at OPP50 (L3=100MHz, VDD2=0.93V):
" Keep the frequency as it is (100MHz).
" Increase the voltage to 1.1375V.
2. Enable DPLL3 Automatic mode. This will ensure proper transition to
RETENTION or OFF mode.
After CORE Voltage Domain Wakeup Transition from RETENTION or OFF mode:
1. Disable DPLL3 Automatic mode.
2. Restore previous DPLL3 M2 Frequency and CORE Voltage values.
Also OSWR should not be attempted if DPLL3 has locked. This should be done as
part of OSWR patch series.
Patch tested on 3430SDP and 3630 ZOOM3.
Do you have a more accurate description of the bug? What is the defect ID?
Defect Id is i581.
The subject is about DPLL3 lock issue, and the description is all about
the transition to CORE RET or OFF and playing with voltage... and why
OSWR is affected as well?
I'm a little bit confused by that...
Is this bug dependent of the target power state? What about INACTIVE?
The root cause of the issue is that SDRC IDLEREQ is deasserted before DPLL3 has
locked. Because of this DLL may/may not lock based on Process Voltage
Temperature
conditions. The bug can occur when DPLL3 automatic transition is enabled. So
DPLL3
automatic transition is disabled by default and it is enabled only when system
is
entering ret/off state (to facilitate voltage scaling). So when system is
entering ret/off
state, WA is applied (since DPLL3 autoidle is enabled, we can possibly hit the
issue;
hence the WA)
Thanks, but that still not explain why this WA is considered only for
device transition to RET or OFF. The DPLL3 can got to idle as soon as
the CORE is INACTIVE. How this case is handled?
DPLL3 auto idle is disabled when Core is in ON or INACTIVE state. So DPLL3
cannot goto idle state. We enable DPPL3 auto idle only when Core is about to
enter RET or OFF state (otherwise VDD2 will not be able to scale the voltage
down).
Why did you prevent that mode for INACTIVE? If I remember well, during
the early measurement we did on 3430, the DPLL consumption in locked
mode is around 5mw, so you can save a good amount of power for very low
load use cases.
Did you try to enable that in CPUIdle to check the power saving you can
achieve with that mode?
Benoit
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