Executive-legislative deadlock occurs when the executive branch (such as a president or prime minister) and the legislative branch (such as a parliament or congress) are unable to reach an agreement on important policy decisions or legislation. This situation often arises when different political parties control the two branches, leading to conflicts over priorities and governance. As a result, essential laws may be stalled, and government operations can become inefficient, impacting the overall functioning of the political system.
There are four strategies of dealing with deadlock problem:1. The Ostrich ApproachJust ignore the deadlock problem altogether.2. Deadlock Detection and RecoveryDetect deadlock and, when it occurs, take steps to recover.3. Deadlock AvoidanceAvoid deadlock by careful resource scheduling.4. Deadlock PreventionPrevent deadlock by resource scheduling so as to negate at least one of the four conditions.
The antonym for deadlock is agreement.
Wedlock Deadlock was created in 1947.
Holy Deadlock was created in 1934.
Deadlock - film - was created in 1931.
House of Dreams - 2004 To Deadlock or Not to Deadlock 1-3 was released on: USA: 22 January 2004
Holy Deadlock has 311 pages.
deadlock handling by 2phase protocol
Wolves - Deadlock album - was created in 2007.
Deadlock - metal band - was created in 1997.
the coordinator conculde incorrectly that a deadlock exist and kills some process --------------------------- Detecting a non existent deadlock in distributed system has been referred as false deadlock and it may occur due to communication delay.. ---->Ashok Paranjothi
Deadlock prevention is the name of the technique that is designed to get rid of deadlocks by changing the specifications of the system , that is the system design change. This is , basically , about how requests about resources are made and how they are permitted. However , deadlock avoidance is a technique that aims to check deadlock possibility dynamically and decides whether it is safe to grant a resource or not. It ,definitely , needs extra information about potential use of resources for each process. Deadlock Prevention: Preventing deadlocks by constraining how requests for resources can be made in the system and how they are handled (system design). The goal is to ensure that at least one of the necessary conditions for deadlock can never hold. Deadlock Avoidance: The system dynamically considers every request and decides whether it is safe to grant it at this point, The system requires additional apriori information regarding the overall potential use of each resource for each process. Allows more concurrency. Similar to the difference between a traffic light and a police officer directing traffic.