This paper presents a tight lower bound on the time complexity of indulgent consensus algorithms, i.e., consensus algorithms that use unreliable failure detectors. We state and prove our tight lower bound in the unifying framework of round-by-round fault detectors.We show that any ⋄P-based t-resilient consensus algorithm requires at least t + 2 rounds for a global decision even in runs that are synchronous. We then prove the bound to be tight by exhibiting a new ⋄P-based t-resilient consensus algorithm that reaches a global decision at round t + 2 in every synchronous run. Our new algorithm is in this sense significantly faster than the most efficient indulgent algorithm we knew of (which requires 2t + 2 rounds).We contrast our lower bound with the well-known t + 1 round tight lower bound on consensus for the synchronous model, pointing out the price of indulgence.

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	M. K. Aguilera and S. Toueg. A simple bivalency proof that t-resilient consensus requires t + 1 rounds. Information Processing Letters, 71(3-4):155-158, 1999.
	2	Tushar Deepak Chandra , Sam Toueg, Unreliable failure detectors for reliable distributed systems, Journal of the ACM (JACM), v.43 n.2, p.225-267, March 1996  [doi>10.1145/226643.226647]
	3	Bernadette Charron-Bost , Rachid Guerraoui , Andre Schiper, Synchronous System and Perfect Failure Detector: Solvability and Efficiency Issue, Proceedings of the 2000 International Conference on Dependable Systems and Networks (formerly FTCS-30 and DCCA-8), p.523-532, June 25-28, 2000
	4	Cynthia Dwork , Nancy Lynch , Larry Stockmeyer, Consensus in the presence of partial synchrony, Journal of the ACM (JACM), v.35 n.2, p.288-323, April 1988  [doi>10.1145/42282.42283]
	5	Michael J. Fischer , Nancy A. Lynch , Michael S. Paterson, Impossibility of distributed consensus with one faulty process, Journal of the ACM (JACM), v.32 n.2, p.374-382, April 1985  [doi>10.1145/3149.214121]
	6	Eli Gafni, Round-by-round fault detectors (extended abstract): unifying synchrony and asynchrony, Proceedings of the seventeenth annual ACM symposium on Principles of distributed computing, p.143-152, June 28-July 02, 1998, Puerto Vallarta, Mexico  [doi>10.1145/277697.277724]
	7	Rachid Guerraoui, Indulgent algorithms (preliminary version), Proceedings of the nineteenth annual ACM symposium on Principles of distributed computing, p.289-297, July 16-19, 2000, Portland, Oregon, United States  [doi>10.1145/343477.343630]
	8	Michel Hurfin , Michel Raynal, A simple and fast asynchronous consensus protocol based on a weak failure detector, Distributed Computing, v.12 n.4, p.209-223, September 1999  [doi>10.1007/s004460050067]
	9	I. Keidar and S. Rajsbaum. On the cost of fault-tolerant consensus when there are no faults - a tutorial. Technical Report MIT-LCS-TR-821, MIT, May 2001.
	10	Nancy A. Lynch, Distributed Algorithms, Morgan Kaufmann Publishers Inc., San Francisco, CA, 1996

• Data structures for quadtree approximation and compression Communications of the ACM   28, 9
  Hanan Samet
  
  
• A hierarchical single-key-lock access control using the Chinese remainder theorem Proceedings of the 1992 ACM/SIGAPP Symposium on Applied computing
  Kim S. Lee ,  Huizhu Lu ,  D. D. Fisher
  
  
• An intelligent component database for behavioral synthesis Proceedings of the 27th ACM/IEEE conference on Design automation
  Gwo-Dong Chen ,  Daniel D. Gajski
  
  
• The GemStone object database management system Communications of the ACM   34, 10
  Paul Butterworth ,  Allen Otis ,  Jacob Stein
  
  
• Putting innovation to work: adoption strategies for multimedia communication systems Communications of the ACM   34, 12
  Ellen Francik ,  Susan Ehrlich Rudman ,  Donna Cooper ,  Stephen Levine