Harmonizing the Orchestration of Cloud-Native Systems

[FL03]

Appellation

SCIP-002: Designing a composable runtime

Contributors

FL03 [email protected] (https://pzzld.eth.limo)

---

Abstract

During the construction of the platform, our dedication to blockchain principles quickly necessitated the need for a novel runtime environment suitable for the myriad of operators we wish to enable. Proton is essentially designed in two-parts, detaching the visual experience from core modules responsible for networking, scheduling, and security. These core modules are encompassed under the guise of Flow modules and are formally derived from tonal centers found in the Neo-Riemannian Theory. The theory is a driving force behind these generalizations, allowing us to harmonically manage remote surfaces.

Composition

Each portal's codebase is split between the registered namespace and the registered device. Active node's are devices capable of supporting graphics, simply wrapping the architecture with the runtime environment.

[FL03]

The Neo-Riemannian Theory

The Neo-Riemannian Theory is a musical theory focusing on the relationship between chords and their motion in tonal music. The theory seeks to describe the way chords relate to another and how the move with respect to a given music piece.

Generalizing these concepts allows us to equate valid nodes registered to the user as a triad, where each device supports the minimum requirements to operate the core modules encompassed within Flow. These core modules are similar to that of tonal centers, enabling all compatible devices to communicate with one another in meaningful ways. Tonnetz generalizes the virtual private network into a malleable runtime fabric orchestrating them as one according to the needs of the user.

Cyclical Capabilities

Another benefit of implementing a runtime environment such as this allows us to naturally introduce cycles into the virtual machine as formally described with abstractions such as the Cube Dance. Similar to an instruction cycle from a traditional CPU, the fabric would follow an execution cycle with the help of the engaged Flow modules and respective portal.

Temporality in Blockchains

Current temporal constraints of traditional blockchain’s restricts them from accommodating ephemeral nodes within their network. Implementing a composable runtime fabric such as the one proposed allows the aggregation of resources into bundles directed at either Disarray or Reaction.

Flow accomplishes this in several ways including deriving our own custom variations to Hydra — lightning fast isomorphic state-channels created by researchers at IOHK. Furthermore, the platform heavily relies on the reduced overhead and increased throughput made possible the state-channels to ensure operating spaces remain light-weight. Flow operates the runtime fabric similar to that of a scheduler native to traditional operating systems. Flow leverages these channels to augment communications between detached surfaces by continuously adapting the runtime fabric to best suit the users needs.

Gas tanks enable us to tangibly describe the amount of cloud computing power users have access to. All devices registered to the user for a virtual private network allowing them to access the aggregated power and resources, streamed directly into their platform. Flow makes direct use of this, offloading various tasks onto more optimized surfaces the user isn’t acting upon before searching for rentable computational spaces. We hope that this naturally increases network participation and further plan on offering a monthly subscription model payable through computational resources.

Resources

• Hydra
• [Instruction Cycle](https://eng.libretexts.org/Courses/Delta_College/Operating_System%3A_The_Basics/01%3A_The_Basics_-_An_Overview/1.4_Instruction_Cycles#:~:text=The%20instruction%20cycle%20(also%20known,in%20order%20to%20process%20instructions.)
• Tonnetz.
• Triad
• Neo-Riemannian Theory
• The Cube Dance (originally conceived by Douthett and Steinbach).