How to Ensure Construction Quality Using IS Codes?

A detailed overview of the use of IS codes in the Indian construction industry (Plus 19 widely used IS codes for construction practitioners)

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The construction industry in India is one of the largest in the world. Its market size was valued at $609.6 billion in 2021. It is a huge number. Considering the economics, think of the scale at which the construction sector is adding value to people's lives.

The industry employs over 30 million people. Along with that, the infrastructure and real estate sectors drive the nation toward economic prosperity. However, this modernization must adhere to legal requirements and regulatory guidelines. There should be processes to ensure development happens in a structured manner. It is of utmost importance that the sector should be regulated to meet quality standards so that development does not happen haphazardly. With this futuristic vision, arose the need for standards. The IS codes are one such industry benchmark.

IS codes (Indian Standard Codes) provide a set of guidelines and standards that ensure the quality of construction work in India. In this blog, we will discuss the complete guide to the use of IS codes to ensure quality in construction in India.

What are IS codes

The IS stands for the Indian Standard Code, which is a series of standards established by the Bureau of Indian Standards (BIS) to ensure the quality and safety of products and services in India. These codes cover a wide range of industries, including construction, engineering, electrical, and many more.

The Bureau of Indian Standards publishes these codes for the harmonious development of the activities of standardization, marking, and quality certification of goods. These codes are prepared after extensive research done across the country by reputed construction companies and organizations. The IS codes are freely available in public resources and can be downloaded from the internet.

Why are IS Codes Important?

IS codes are important because they provide a benchmark for quality in the construction industry.

The use of IS codes ensures that the construction work is carried out in a consistent and standardized manner. This helps to minimize the risk of errors and mistakes and ensures that the projects are completed on time and within budget. The use of IS codes also helps to maintain the safety and health of workers and the public.

Professionals who benefit from the use of IS codes

IS Codes benefits a variety of stakeholders including:

Manufacturers and suppliers: They use IS Codes as a guideline to produce and supply quality products.

Customers: They are assured of the quality and safety of products that meet IS Code standards.

Government agencies: They use IS Codes as a basis for regulations and enforcement of standards.

Construction and engineering industries: They use IS Codes as a benchmark for the design and execution of projects.

Insurance companies: They consider IS Code compliance as a factor in determining insurance coverage for products and projects.

Legal entities: They use IS Codes as a reference in dispute resolution and contract negotiations.

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What are the benefits of using IS codes

The benefits of using IS Codes include:

Quality assurance: IS Codes ensure that products and services meet a minimum standard of quality and safety.

Consistency: IS Codes provide a uniform standard that can be followed across the country, promoting consistency in products and services.

Improved competitiveness: Adherence to IS Codes can improve the competitiveness of products and services in domestic and international markets.

Legal protection: Compliance with IS Codes can provide legal protection in case of disputes and liability claims.

Safety: IS Codes promote safety in various industries, protecting both workers and customers.

Better decision-making: IS Codes provide a basis for informed decision-making by manufacturers, suppliers, government agencies, and customers.

Facilitation of trade: IS Codes can facilitate trade by ensuring compatibility and interoperability of products and services across different regions and countries.

If you are in the construction industry and want to get in-depth knowledge of any segment of the sector, you can refer to the relevant IS codes on that topic. Let's understand how to approach an IS code related to construction.  

How to Approach an IS code

IS codes come in a variety of formats. Some like IS code on the glossary of terms related to cement, are introductory and can be understood by a general reader, while some like IS code for concrete mix design are purely technical and needs a broad understanding of the subject.

Each IS code is meant to either streamline a process or elaborate technical terms or share a standardized process or mix of these. Here are examples of each:

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IS codes to streamline a process

  • IS 15883: 2009 - code on construction project management guidelines
  • IS 383: 2016 - code on the specification for coarse and fine aggregates for concrete

IS codes to elaborate technical terms

  • IS 965: 1963 - code on equivalent metric units for scales, dimensions, and quantities in general construction works
  • IS 4305: 1967 - code on a glossary of terms related to pozzolana

IS codes to share a standardized process /procedure

  • IS 1200 - code on the method of measurement of building and civil engineering works
  • IS 3535: 1986 - code on methods of sampling hydraulic cement

You now know what to expect from an IS code! Now let's move from whole to part.

As we saw, IS codes are open source and are freely available. You can find out IS codes for any of your technical needs through an internet search or through the BIS website. However, as of now, there is no proper directory that will provide a list of IS codes as per your specific needs. But here is a hack - you can also search for the specific IS code you need by referring to the "References" section in the known IS codes on a similar topic.  

Once you know which topic you want to refer to, here is how to approach an IS code for that topic :

1. Figure out the topic of interest and relevant IS code You can search for the relevant IS Code by its title or number, or browse the list of IS Codes by sector or industry. Say If you want to understand aggregates for construction, list down the codes from the BIS website or by searching the internet.

2. Obtain a copy of the IS Code IS Codes can be purchased from the Bureau of Indian Standards (BIS) or other authorized sources. They can also be accessed online through subscription services. However, IS codes are open source and can be downloaded via the internet. Here is one such site called Internet Archive that hosts various IS codes like the one on cement and concrete

3. Read the scope and purpose of the IS Code This section provides an overview of what the IS Code covers and why it was established. The scope will tell you what to expect from the code.

4. Understand the practical application of the subject Each code is designed to cater to a specific need. For example, the code on pre-stress concrete is meant for understanding and practically applying the concepts of pre-stress to erect reinforced concrete structures. By referring to this code, you can design pre-stress elements. The code is thus useful for structural designers, pre-stress manufacturers, architects, and construction enthusiasts.

5. Thoroughly read the entire code Once you know the necessary codes, read them. Carry 3-4 color pens. Use them to take notes. For example, use red color to underline theoretical information, and black to note significant values. Summarize the key inputs. Write any relevant information in the side margins or in a notebook.

Get the fundamentals clear
IS codes are technical documents. Reading and comprehending these codes without prior knowledge can be hard. Keep a handy book or get along with an experienced engineer who will help you with the subject.

Study the definitions and symbols used in the IS Code This section provides a clear understanding of the technical terms and symbols used in the IS Code.

Read and understand the requirements and specifications This section outlines the requirements, specifications, and guidelines for compliance with the IS Code.

Follow the IS Code as appropriate The IS Code provides a benchmark for best practices in a specific industry or sector. Follow the IS Code as appropriate to ensure quality and safety in your products or services.

Note: It is important to keep in mind that the use of IS Codes is voluntary, but compliance with IS Codes is often required by law, regulations, or contracts.

6. Take reference from guide books. If necessary, refer to technical books for practical examples. Say, for reinforced concrete structure refer to books by Bhavikatti, Duggal, or BC Punmia.
Although there is no need for site engineers and constructors to remember all the details mentioned in the code, it is better to have an overall idea of essential sections, values, tables, and diagrams of the code. Creating mind maps and step-by-step procedures like a checklist in a diary can help ease construction project activities.
Remember that reading and mastering any IS code is the first step to understanding the standard practices to follow at the construction site. The project manager and the engineers also ne to practically apply the practices at the site.

Now that you have got an idea of how to approach an IS code, let's look at a few important codes used across the country.

List of 19 important IS codes used in civil engineering

There are numerous IS codes available for every segment of the construction industry. Here are 20 widely used codes:

1. IS 456

IS 456 is an Indian Standard code of practice for plain and reinforced concrete. It provides guidelines and specifications for the design and construction of concrete structures. The code covers various aspects of concrete construction, including materials, mixing and placing of concrete, design of reinforced concrete, and quality control. The main objective of IS 456 is to ensure that the concrete structures are safe, durable, and capable of performing their intended function.

The code is widely used in the construction industry in India and is considered the benchmark for the design and construction of concrete structures. It is a necessary read for engineers, contractors, and construction professionals. The latest version is IS 456: 2000.

Here, IS stands for Indian Standards. 456 is the code number and 2000 is the year in which the code was either published or updated.

Read in detail about IS 456

2. IS 10262

IS 10262 is an Indian Standard code for the guidelines for concrete mix design. It provides procedures for determining the proportions of ingredients for concrete mix design and the method of mix design based on the following factors:

  • Characteristics of materials
  • Workability
  • Strength requirements
  • Durability requirements

The standard provides detailed procedures for determining the water-cement ratio, coarse and fine aggregate proportions, and air content. The IS 10262 also covers the method of mix design by trial and field tests and provides a basis for mix design practices in the construction industry in India.

The use of IS 10262 helps to ensure that the concrete mix is optimized for strength, workability, and durability, and minimizes the risk of inconsistencies in the concrete mix design. The code is widely used in the construction industry in India and is considered the benchmark for concrete mix design practices. The latest version is IS 10262: 2009

Read in detail about IS 10262

3. IS 4926

IS 4926 is an Indian Standard code for the guidelines for Ready Mixed Concrete (RMC) production and delivery. It provides guidelines for the production and delivery of ready-mixed concrete, which is a type of concrete that is manufactured in a centralized batching plant and then delivered to the construction site using transit mixers.

The standard covers various aspects of RMC production and delivery, including the materials, batching and mixing of concrete, quality control, and transportation. It also provides guidelines for the sampling and testing of RMC, and the calculation of the concrete mix design.

The use of IS 4926 helps to ensure that RMC is produced and delivered to the construction site in a consistent and standardized manner, and meets the specified requirements for strength, workability, and durability. The code is the benchmark for RMC production and delivery practices. The latest edition of this code is IS 4926: 2003

Read in detail about IS 4926

4.  IS 1343

IS 1343 is an Indian Standard code for the specification of Prestressed Concrete. It provides guidelines for the design and construction of prestressed concrete structures, which are concrete structures that are subjected to pre-tensioning forces to improve their strength and stability.

The standard covers various aspects of prestressed concrete construction, including materials, prestressing systems, prestressing tendons, anchorage and ducts, and quality control. It also provides guidelines for the calculation of prestressing forces, the design of prestressed concrete members, and the testing of prestressed concrete.

The use of IS 1343 helps to ensure that prestressed concrete structures are designed and constructed in a consistent and standardized manner, and meet the specified requirements for strength, stability, and durability. The latest edition of this code is IS 1343: 2012

Read in detail about IS 1343

5. IS 457

IS 457:1957 is an Indian Standard code for the guidelines for the general construction of plain and reinforced concrete for dams and other massive structures. It provides guidelines for the design and construction of plain and reinforced concrete structures that are used in massive structures such as dams, power plants, and large buildings. The standard covers various aspects of concrete construction, including the materials, mix design, formwork, placement, and curing of concrete, and the design and construction of reinforcement.

The use of IS 457:1957 helps to ensure that the concrete structures used in massive structures are designed and constructed in a consistent and standardized manner, and meet the specified requirements.

Read in detail about IS 457

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6. IS 1200  

IS 1200 is the code for the method of measurement of building and civil engineering works. The standard provides the basic rules for measuring the quantities of different items of work like earthwork, brickwork, plastering, painting, etc.

It also provides a detailed procedure for the measurement of different types of items of work, including excavation, filling, concrete work, masonry work, and so on. It is an important reference document for contractors, engineers, and other professionals involved in construction projects. It ensures that the measurements are done in a consistent and accurate manner, which helps to avoid disputes and misunderstandings over the quantities of work.

The rationale for preparing this code was to bring coherence among the various government organizations and private construction professionals. The code is divided into 25 parts, each covering a particular type of construction project/activity.

Read in detail about IS 1200

7. IS 875

IS 875 is an Indian Standard code for the Loads on buildings and structures. It provides guidelines for the calculation of the loads on buildings and structures, including the dead load, live load, wind load, seismic load, snow load, and other loads that may affect the design and construction of buildings and structures.

IS 875 could be used for:

Design Process: IS 875 provides guidelines for the calculation of various loads on buildings and structures, including dead load, live load, wind load, seismic load, snow load, and other loads. These load calculations are essential in the design process and help engineers to determine the size and strength of structural members and foundations required to support the loads.

Load Combination: The code provides provisions for the combination of loads that must be considered in the design process. Load combinations are used to determine the maximum load that a structure may be subjected to during its life.

Load Path Analysis: IS 875 also provides guidelines for load path analysis, which is used to determine how loads are transferred from one structural member to another. This analysis is important in determining the strength and stability of the structure.

Structural Design: The code provides guidelines for the design of structural members, including beams, columns, slabs, and walls, taking into account the loads that the structure will be subjected to during its life.

Seismic Design: IS 875 provides provisions for the seismic design of buildings and structures, taking into account the seismic load that the structure may be subjected to during an earthquake.

8. IS 800

The IS 800:2007 standard provides comprehensive guidelines for the design and construction of steel structures in India, with a focus on ensuring the strength, stability, and safety of these structures. This code covers the design and construction of steel structures for a wide range of applications, including buildings, bridges, towers, and other load-bearing structures.

The standard covers important aspects of steel structure design, including the selection of materials and components, loading criteria, member design, connections, and fabrication. It provides guidelines for the design of members and connections, including provisions for buckling, stability, fatigue, and fire resistance. It also includes recommendations for the inspection, testing, and maintenance of steel structures.

9. IS 6461

IS 6461 is the code on the glossary of terms relating to cement concrete. The Bureau of Indian Standards (BIS) released IS 6461 in 1972, which defined all the terms related to concrete and materials used in the construction industry. If you ever find yourself wondering what aggregate to call coarse and fine, remember that this code has everything you need!

Read in detail about IS 6461

10.  IS 383

The IS 383: 2016 Specification for Coarse and Fine Aggregates in Concrete (Second Revision) outlines the requirements for both artificial and naturally available aggregates in construction. The code categorizes aggregates into three categories: fine aggregate, coarse aggregate, and all-in aggregate (a combination of fine and coarse).

One of the key points emphasized in the code is the use of crushed aggregates, due to the scarcity of naturally available aggregate. However, there are limitations placed on the usage of crushed aggregates, as they may not be suitable for all applications. For instance, the code does not recommend the use of manufactured aggregate in pre-stressed concrete. Additionally, Table 1 highlights the limitations on the usage of manufactured aggregates.

The code also subjects manufactured aggregates to additional restrictions, which are outlined in tables 3, 4, 5, and 6 of the IS 383: 2016 specification.

The IS codes are designed to be practical and informative, with each clause providing a key takeaway for the practitioner.

Read in detail about IS 383

11.  IS 2430

The IS 2430:1986 Methods for Sampling of Aggregates in Concrete offers guidance on the proper procedures for sampling coarse and fine aggregates. The code outlines the methods for sampling for the following purposes: evaluating the source of supply, examining shipments of materials, and inspecting materials on the construction site.

Additionally, the standard includes information on sample reduction, packing, and dispatching the samples for further examination and testing.

Read in detail about IS 2430

12. IS 2386

The IS 2386: 1963 standard outlines the methods for testing aggregates in concrete. The code is divided into 8 parts, covering the following aspects of aggregate testing.  The code is divided into eight parts, each covering various physical tests on aggregates. For example part 1 covers test on particle size and shape, part 2 covers estimation of deleterious materials.

Read in detail about IS 2386

13. IS 1199

The IS 1199: 1959 standard lays out guidelines for quality control testing of raw materials for concrete and fresh and hardened concrete. These tests aim to improve material efficiency and guarantee the performance of the concrete in terms of strength and durability. The procedures outlined include the sampling of fresh concrete, preparation of test specimens, workability tests, sieve analysis, specific gravity determination, and more. The code does not cover the strength testing of concrete. For strength determination, you need to refer to IS 516: 1959 - Methods of test for the strength of concrete.

Read in detail about IS 1199

14. IS 4031 and IS 4032

IS 4031: 1998 and IS 4032: 1985 are standards that deal with the physical and chemical requirements for different types of hydraulic cements including ordinary Portland cement, rapid-hardening Portland cement, low-heat of hydration Portland cement, sulfate-resisting Portland cement, and high-early strength Portland cement. The codes specify the requirements for the raw materials used in the production of hydraulic cement, including chemical composition, particle size distribution, and the method of manufacture.

IS 4031 covers the methods of testing hydraulic cement, including tests for normal consistency, setting time, soundness, and strength while IS 4032 covers tests to determine chemical properties. These codes are essential for ensuring the quality and performance of hydraulic cement used in construction projects.

Read in detail about IS 4031 and IS 4032

15. IS 9103

IS 9103: 1999 is the code for the specification for admixtures for concrete. It lays out the guidelines for the evaluation of admixtures for concrete. It covers five types of admixtures: accelerators, retarders, water-reducing admixtures, air-entraining admixtures, and superplasticizers.

The code outlines testing procedures for both fresh and hardened concrete with and without admixtures, to evaluate the properties of concrete when admixtures are used. These tests ensure that the correct amounts of admixtures are utilized during concrete mixing operations.

Read in detail about IS 9103

16. IS 1489

The IS 1489 code outlines the specifications for Portland Pozzolana Cement, a type of cement made from a mixture of Portland cement, siliceous materials (such as calcined clay or fly ash), and water. The code defines pozzolana as materials that, when finely divided and mixed with water, react with calcium hydroxide to form compounds with cement-like properties. The code is divided into two parts, with Part 1 covering fly ash pozzolana and Part 2 covering calcinated clay-based pozzolana.

Other codes on the specification of cement include IS 455, IS 3466, IS 650, you can find details of each here.

Read in detail about IS 1489

17. IS 4082

IS 4082:1996 is a standard for stacking and storage of construction materials and components on construction sites. It provides guidelines for the safe and effective storage of materials, including the selection of suitable storage sites, construction of stacks, protection from weather and moisture, and safe handling and labeling of materials.

Read in detail about IS 4082

18. IS 269    

IS 269: 1989 is a standard that provides specifications for 33-grade ordinary Portland cement. This code defines the properties and quality requirements for ordinary Portland cement, which is widely used as a binding material in construction.

The code covers the chemical and physical requirements of ordinary Portland cement, including its fineness, setting time, soundness, and compressive strength. It also provides guidelines for the sampling and testing of cement to ensure that it meets the specified requirements.

In addition, the code includes provisions for the marking and labeling of ordinary Portland cement, including the type of cement, its grade, and the manufacturer's name and address. This information helps in traceability and accountability and helps ensure that the cement used in construction is of the specified quality.

19. IS codes on NDT

NDT stands for Non-Destructive Testing, it is a type of testing method used to evaluate the quality and condition of materials, components, and structures without causing damage to them. These NDT methods provide a convenient and efficient way to evaluate the quality and condition of concrete structures and can help to avoid the need for destructive testing, which can be time-consuming and expensive. Here are two IS codes on NDT used by civil engineers and construction quality practitioners  in the construction industry:

  • IS 2770: 1967 - Pull-out Test

IS 2770 lays out the guidelines for testing the bond strength in reinforced concrete. Part 1 of the code specifically deals with the Pull Out Test. It provides a comprehensive procedure for conducting the test, including information on the necessary equipment and step-by-step instructions. The test is useful to check construction defects once the concrete hardens.

  • IS 13311: 1992

Part 1 covers the object, principle, apparatus, and test procedure of the Ultrasonic Pulse Velocity Test, while part 2 covers the same for Rebound Hammer Test.

Read in detail about IS codes on NDT

Hurray! We saw a list of 20 IS codes useful for construction practitioners. Remember that this list covers the most used IS codes. But there are many more codes that BIS has published! Here is the comprehensive list to refer to.

Also, note that, although there are numerous IS codes, you don’t need to refer to all. You only need to know specific codes that suit your business requirement. Let’s say you are in the construction quality business. Then, you need to know IS codes for all the tests carried out to check the quality of cement ordered on the site. If you are in the non-destructive testing business, you need to know all the essential relevant IS codes.  
No matter what business you are in, it is important to know the relevant IS codes. Knowing these codes can help you protect your business and meet legal requirements.


That's it!

We have come a long way. We first learned about IS codes, then how professionals can benefit from using IS codes, the benefits of using IS codes for construction businesses, how to approach an IS code, and finally got an overview of widely used IS codes. Now that you have clarity of how and why to use IS codes, let's understand the quality aspect.

How to ensure construction quality using IS codes

Quality in construction is important because it directly impacts the safety, functionality, durability, and overall performance of a building or structure. Poor quality construction can lead to a range of problems, including structural failures, safety hazards, and reduced lifespan, leading to increased maintenance costs and potential harm to occupants.

Additionally, poor-quality construction can result in decreased property values, reduced marketability, and increased liability for the builders and owners. On the other hand, high-quality construction helps to ensure that a building or structure is safe, functional, and able to perform as intended, with minimal maintenance and repair needs.

Quality construction also helps to ensure that a building or structure meets local codes and regulations, and complies with industry standards, which can help to minimize the risk of costly repairs or renovations, as well as legal and financial liabilities.

Overall, investing in quality construction is essential for ensuring the safety, functionality, and longevity of a building or structure, and for maximizing its value and performance over time.

Here is how using IS Codes can ensure quality construction work:

  • Specifying Requirements and Standards: IS Codes provide detailed requirements, specifications, and guidelines for the design, production, installation, and maintenance of products and services in a specific industry or sector. This helps to ensure that products and services meet a minimum standard of quality, safety, and performance.
  • Providing a Benchmark: IS Codes provide a benchmark for best practices in a specific industry or sector, and are used by manufacturers, suppliers, government agencies, consumers, and other stakeholders as a guideline for quality assurance and informed decision-making.
  • Promoting Consistency: IS Codes promote consistency in products and services across the country, helping to eliminate the problem of variations in quality and safety.
  • Encouraging Continuous Improvement: IS Codes encourage the continuous improvement of products and services, by providing regular updates and revisions to keep pace with the latest developments and technologies.
  • Providing Legal Protection: Compliance with IS Codes is often required by law, regulations, or contracts, and can provide legal protection in case of disputes and liability claims.

There we are!

Hope you found this guide useful to understand the importance of IS codes in construction quality management. Let's now take a quick overview of what we learned so far.

Summary

What are IS codes?

IS codes are a set of standardized specifications and guidelines for various aspects of construction. These codes cover everything from design and materials to construction processes and quality control. The codes are regularly updated and reviewed by experts in the construction industry to ensure they reflect the latest best practices and advancements in the field.

Once you know the relevant IS codes, you should make sure that your business is compliant with them. This means that all products, services, and processes must meet or exceed the standards set forth in the IS codes. Depending on your industry and the specific IS code, this could involve testing, certification, or other measures.

How to enhance construction quality using IS codes

  • Familiarize yourself with the codes
    To use IS codes effectively, it is important to have a thorough understanding of the codes and what they require. Contractors should take the time to familiarize themselves with the codes, including their purpose, scope, and requirements.

  • Use the codes as a reference IS codes should be used as a reference during all stages of the construction process, from design to construction and quality control. Engineering teams should consult the codes regularly to ensure they are following the latest best practices and requirements.

  • Involve experts Companies should consider involving experts in the construction industry, such as engineers, architects, and inspectors, to ensure they are using the codes correctly and effectively. These experts can provide guidance and support, helping to ensure that the construction project meets the highest quality standards.

  • Regularly update IS codes are regularly updated, and it is important to keep up to date with the latest codes and requirements. Ensure that you regularly check for updates and revisions to the codes and make any necessary changes to their projects to ensure they are in compliance.

Enhancing construction quality is a critical factor in ensuring the safety, durability, and functionality of buildings and infrastructure. By using Indian Standard (IS) codes, you can ensure a consistent and uniform level of quality across all construction projects, meet the highest safety standards, and optimize the functionality of their projects.

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Conclusion

Whatever business you do, you need to adhere to the standards. If you are in construction real estate or a project management consultant, you know the cost of non-compliance and poor workmanship. If you want to maintain your reputation in the industry, ensure that you stick to quality. Make sure that all team members understand the importance of quality assurance and quality control, and follow the standards and guidelines set forth by the stakeholder organizations and the authorities.

One last thing.

When it comes to quality, stay updates with the latest trends.

Implement a quality assurance system that monitors the entire process from start to finish, ensuring accuracy and compliance.

  • Encourage team members to report any errors or issues they come across during their work so they can be addressed as soon as possible.
  • Develop a tracking system to monitor the progress of each project and identify areas of improvement.
  • Set clear expectations for quality assurance standards and hold team members accountable for meeting them.
  • Conduct regular training sessions and workshops to ensure everyone is up to date with quality assurance requirements and best practices.
  • Provide feedback on quality assurance results and use it to improve processes and procedures.
  • Establish a system of rewards and recognition for those who perform well in quality assurance.
  • Keep an eye out for new quality assurance technologies and methods and incorporate them into your processes.

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