I don't think that is correct. Autoignition doesn't automatically imply a supersonic flame front.
Diesels should not detonate. The autoignition in a diesel occurs by the piston compressing the air/fuel mixture; in detonation, the autoignition occurs by the flame front compressing the air/fuel mixture. To the OP, the definition of detonation is a flame front that is supersonic; that is not the intended operation of a diesel cycle. Diesels do not have a "flame front" like a spark-ignition engine because combustion occurs at various parts of the cylinder as the air/fuel mix reaches autoignition temperature. So by definition, properly operating diesels cannot detonate.
The rattle-y sound of diesels is from the high pressure rise and local ignition of air/fuel, but it's not the same as detonation.
Diesels should not detonate. The autoignition in a diesel occurs by the piston compressing the air/fuel mixture; in detonation, the autoignition occurs by the flame front compressing the air/fuel mixture. To the OP, the definition of detonation is a flame front that is supersonic; that is not the intended operation of a diesel cycle. Diesels do not have a "flame front" like a spark-ignition engine because combustion occurs at various parts of the cylinder as the air/fuel mix reaches autoignition temperature. So by definition, properly operating diesels cannot detonate.
The rattle-y sound of diesels is from the high pressure rise and local ignition of air/fuel, but it's not the same as detonation.