Conor Dooley <conor@xxxxxxxxxx> writes: > On Wed, Feb 14, 2024 at 03:01:06PM +0530, Bhargav Raviprakash wrote: >> Hi Conor, >> >> On Fri 2/9/2024 10:41 PM, Conor Dooley wrote: >> > On Thu, Feb 08, 2024 at 04:23:33PM +0530, Bhargav Raviprakash wrote: >> > > TPS65224 is a Power Management IC with 4 Buck regulators and 3 LDO >> > > regulators, it includes additional features like GPIOs, watchdog, ESMs >> > > (Error Signal Monitor), and PFSM (Pre-configurable Finite State Machine) >> > > managing the state of the device. >> > >> > > TPS6594 and TPS65224 have significant functional overlap. >> > >> > What does "significant functional overlap" mean? Does one implement a >> > compatible subset of the other? I assume the answer is no, given there >> > seems to be some core looking registers at different addresses. >> >> The intention behind “significant functional overlap” was meant to >> indicate a lot of the features between TPS6594 and TPS65224 overlap, >> while there are some features specific to TPS65224. >> There is compatibility between the PMIC register maps, I2C, PFSM, >> and other drivers even though there are some core registers at >> different addresses. >> >> Would it be more appropriate to say the 2 devices are compatible and have >> sufficient feature overlap rather than significant functional overlap? > > If core registers are at different addresses, then it is unlikely that > these devices are compatible. That's not necessarily true. Hardware designers can sometimes be creative. :) > In this context, compatible means that existing software intended for > the 6594 would run without modification on the 65224, although maybe > only supporting a subset of features. If that's not the case, then > the devices are not compatible. Compatible is a fuzzy term... so we need to get into the gray area. What's going on here is that this new part is derivative in many signifcant (but not all) ways from an existing similar part. When writing drivers for new, derivative parts, there's always a choice between 1) extending the existing driver (using a new compatible string & match table for the diffs) or 2) creating a new driver which will have a bunch of duplicated code. The first verion of this series[1] took the 2nd approach, but due to the significant functional (and feature) overlap, the recommendation was instead to take the "reuse" path to avoid signficant amounts of duplicated code. Of course, it's possible that while going down the "reuse" path, there may be a point where creating a separate driver for some aspects might make sense, but that needs to be justified. Based on a quick glance of what I see in this series so far (I have not done a detailed review), the differences with the new device look to me like they can be handled with chip-specific data in a match table. Kevin [1] https://lore.kernel.org/lkml/20231026133226.290040-1-sirisha.gairuboina@xxxxxxxx/