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Optimize Your Production

XSPOC is an Artificial Lift optimization software that uses physics-based diagnostics and Artificial Intelligence to identify, diagnose, recommend, and autonomously – control producing wells.

XSPOC Key Features

Optimize Performance

Increase production on suboptimal wells, quickly and easily identifying uplift opportunities

2x increase of wells managed

Focus people on the right assets at the right time

Improve MTBF across all lift assets

Enhance run times on any Lift system by utilizing advanced diagnostics and AI to match system

Optimize Production With XSPOC

XSPOC's users range from large integrated oil companies to producers with just a few wells. Our solutions are built to match your specific needs.

XSPOC boasts the largest database of pump cards in the industry, enabling precise pattern matching on rod lift wells.

A robust database of pump curves collected from various ESP providers enables better physics-based models and optimization.

XSPOC is utilized on over 125,000 wells across the globe, and is used with all six major forms of Artificial Lift as well as production facilities.

Oil pump jack in the desert.

250+ Customers

XSPOC's users range from large integrated oil companies to producers with just a few wells. Our solutions are built to match your specific needs.

Oil pump jack in the desert.

+25 Million Unique Pump Cards

XSPOC boasts the largest database of pump cards in the industry, enabling precise pattern matching on rod lift wells.

Oil pump jack in the desert.

800+ ESP Pump Curves

A robust database of pump curves collected from various ESP providers enables better physics-based models and optimization.

Oil pump jack in the desert.

125K Wells

XSPOC is utilized on over 125,000 wells across the globe, and is used with all six major forms of Artificial Lift as well as production facilities.

Fundamental Objectives of Optimization

At Theta, we believe there are four steps to the optimization of production assets. Our Artificial Lift experts have constructed physics-based models and Artificial Intelligence models to enable the autonomous operation of lift optimization including: identification, diagnosis, recommendation, and autonomous control.

1

Identification

Identify Issues

Which wells are underperforming or operating in a way that will lead to premature failure?

2

Diagnosis

Diagnose the Problem

What is the exact operational or failure mode?

3

Recommendation

Recommend Action

What can be done to alleviate the problem?

4

Autonomous Operation

Closed-Loop Control

If possible, can the change be made automatically?

How XSPOC Can Optimize Your Production Assets

XSPOC usability example on the phone and computer screen.

Physics-Based Diagnosis

Physics-based models are used to depict what is actually occurring downhole. Physics-based diagnostics allow you to model your lift system so you can characterize operational or failure modes with your wells.

Artificial Intelligence

AI automates processes that are performed manually, making decisions based on specified parameters. AI autonomously runs pattern matching and multivariable trend analysis to optimally control lift performance.

SCADA

XSPOC communicates with field devices and performs both control and data acquisition tasks via its own polling engine. XSPOC also integrates with all major SCADA platforms in the market.

Open Platform

XSPOC is built on SQL tables, and is highly configurable. It also integrates with third party software including Wellview and Open Wells and can be visualized in tools such as Spotfire and Tableau.

Subject Matter Experts (SME’s)

Theta leverages collective expertise across all forms of lift in the Apergy portfolio to build, enhance, and test models.