Christian Hollaus, Sasko Ristov

Effects of the "spawn start" of the Monte Carlo serverless function that simulates Pi.

The functions are orchestrated as a workflow and executed with the xAFCL enactment engine (https://doi.org/10.1109/TSC.2021.3128137) on three regions (US, EU, Asia) of three cloud providers AWS Lambda, Google Cloud Functions, and IBM Cloud Functions.

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[1] Christian Hollaus, Sasko Ristov, "Spawn start effects on serverless functions", IEEE Dataport, 2022. [Online]. Available: http://dx.doi.org/10.21227/qdnc-7y79. Accessed: Feb. 08, 2025.
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doi = {10.21227/qdnc-7y79},
url = {http://dx.doi.org/10.21227/qdnc-7y79},
author = {Christian Hollaus; Sasko Ristov },
publisher = {IEEE Dataport},
title = {Spawn start effects on serverless functions},
year = {2022} }
TY - DATA
T1 - Spawn start effects on serverless functions
AU - Christian Hollaus; Sasko Ristov
PY - 2022
PB - IEEE Dataport
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Christian Hollaus, Sasko Ristov. (2022). Spawn start effects on serverless functions. IEEE Dataport. http://dx.doi.org/10.21227/qdnc-7y79
Christian Hollaus, Sasko Ristov, 2022. Spawn start effects on serverless functions. Available at: http://dx.doi.org/10.21227/qdnc-7y79.
Christian Hollaus, Sasko Ristov. (2022). "Spawn start effects on serverless functions." Web.
1. Christian Hollaus, Sasko Ristov. Spawn start effects on serverless functions [Internet]. IEEE Dataport; 2022. Available from : http://dx.doi.org/10.21227/qdnc-7y79
Christian Hollaus, Sasko Ristov. "Spawn start effects on serverless functions." doi: 10.21227/qdnc-7y79