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Difference between deterministic and nondeterministic loop?
Deterministic and non-deterministic loops A deterministic loop is predictable. The number of iterations of such a loop are known in advance, even before the loop has started. Most counting loops are deterministic. Before they start, we can say how many times they will execute. A non-deterministic loop is not easily predicted. A loop that is driven by the response of a user is not deterministic, because we cannot predict the response of the user. Non-deterministic loops usually are controlled by a boolean and the number of iterations is not known in advance.
What is non-deterministic finalization?
non-deterministic means not predicable, hence non-deterministic finalization means the finalization (removing objects from memory) cannot be determined when that will happen
What is deterministic systems?
Deterministic systems in which the output can be predicted with 100 percent certainty
Is every deterministic context free language is regular?
No, not every deterministic context-free language is regular. While regular languages are a subset of deterministic context-free languages, there are deterministic context-free languages that are not regular. This is because deterministic context-free languages can include more complex structures that cannot be captured by regular expressions.
What type of technologies that used deterministic MAC protocol?
What type of technologies that used deterministic MAC protocol?
What is full form of DFA and NFA?
DFA - deterministic finite automata NFA - non-deterministic finite automata
What is the list of automation PLC companies in Chennai?
Rockwell Automation Honeywell Automation Siemens Base Automation Focaal Automation Select Automation Mells Automation Cmos Processors TCS Mahindra Satyam Wipro Mind Tree Enpro Automation
Automation for small scale industries?
base automation Select Automation Focaal automation selec
What did nfa stand for?
NFA - Non-deterministic Finite Automaton, aka NFSM (Non-deterministic Finite State Machine)
List of automation companies in hyderabad?
vasek automation,run automation
What does non probability mean?
It is likely to mean deterministic. It means that the outcome of an event is known and not subject to probability.It is likely to mean deterministic. It means that the outcome of an event is known and not subject to probability.It is likely to mean deterministic. It means that the outcome of an event is known and not subject to probability.It is likely to mean deterministic. It means that the outcome of an event is known and not subject to probability.
What is the different between hard automation and soft automation?
Difference Between Hard Automation and Soft Automation: Definition: Hard Automation (Fixed Automation): Hard automation involves machines or systems designed for a specific task or a fixed sequence of operations. These systems are rigid and difficult to reprogram or modify once built. Soft Automation (Flexible Automation): Soft automation refers to systems designed to be adaptable and capable of performing various tasks. These systems can be reprogrammed or adjusted to accommodate different products or processes. Flexibility: Hard Automation: Limited flexibility; designed for high-volume production of a single product. Soft Automation: Highly flexible; suitable for low to medium production volumes with variations in design or processes. Cost and Investment: Hard Automation: Requires high initial investment due to custom design and specialized equipment. Soft Automation: Lower initial costs with additional expenses for software and programming. Application Areas: Hard Automation: Commonly used in industries like automotive manufacturing and mass production lines where consistent, repetitive tasks are required. Soft Automation: Ideal for industries like electronics, aerospace, and custom manufacturing where frequent changes in production processes are needed. Example: Hard Automation: Assembly line machines that only produce a single type of product. Soft Automation: Robotic arms in manufacturing that can be reprogrammed to assemble different products. Conclusion: The choice between hard and soft automation depends on the production requirements, cost considerations, and the need for flexibility in operations. Hard automation excels in efficiency for repetitive tasks, while soft automation provides adaptability for dynamic environments.
