Industry Comparison

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Current language: English (2023)

You are viewing information about the following Industries:

  • Semiconductors Semiconductors industry entities design or manufacture semiconductor devices, integrated circuits, their raw materials and components, or capital equipment. Some entities in the industry provide outsourced manufacturing, assembly or other services for designers of semiconductor devices.
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  • Real Estate Real Estate industry entities own, develop and operate income-producing real estate assets. Entities in this industry commonly are structured as real estate investment trusts (REITs) and operate in a wide range of real estate industry segments, including residential, retail, office, health care, industrial and hotel properties. REITs typically participate in direct real estate asset ownership, thereby providing investors with the opportunity to obtain real estate exposure without direct asset ownership and management. Although REITs often concentrate on individual Real Estate industry segments, many REITs diversify investments across multiple property types.
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Relevant Issues for both Industries (10 of 26)

Why are some issues greyed out? The SASB Standards vary by industry based on the different sustainability-related risks and opportunities within an industry. The issues in grey were not identified during the standard-setting process as the most likely to be useful to investors, so they are not included in the Standard. Over time, as the ISSB continues to receive market feedback, some issues may be added or removed from the Standard. Each company determines which sustainability-related risks and opportunities are relevant to its business. The Standard is designed for the typical company in an industry, but individual companies may choose to report on different sustainability-related risks and opportunities based on their unique business model.

Disclosure Topics

What is the relationship between General Issue Category and Disclosure Topics? The General Issue Category is an industry-agnostic version of the Disclosure Topics that appear in each SASB Standard. Disclosure topics represent the industry-specific impacts of General Issue Categories. The industry-specific Disclosure Topics ensure each SASB Standard is tailored to the industry, while the General Issue Categories enable comparability across industries. For example, Health & Nutrition is a disclosure topic in the Non-Alcoholic Beverages industry, representing an industry-specific measure of the general issue of Customer Welfare. The issue of Customer Welfare, however, manifests as the Counterfeit Drugs disclosure topic in the Biotechnology & Pharmaceuticals industry.
  • Semiconductors Remove
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    • GHG Emissions The category addresses direct (Scope 1) greenhouse gas (GHG) emissions that a company generates through its operations. This includes GHG emissions from stationary (e.g., factories, power plants) and mobile sources (e.g., trucks, delivery vehicles, planes), whether a result of combustion of fuel or non-combusted direct releases during activities such as natural resource extraction, power generation, land use, or biogenic processes. The category further includes management of regulatory risks, environmental compliance, and reputational risks and opportunities, as they related to direct GHG emissions. The seven GHGs covered under the Kyoto Protocol are included within the category—carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulfur hexafluoride (SF6), and nitrogen trifluoride (NF3).
      • Greenhouse Gas Emissions Entities in the Semiconductors industry generate greenhouse gas (GHG) emissions, particularly those from perfluorinated compounds, from semiconductor manufacturing operations. GHG emissions may create regulatory compliance costs and operating risks for semiconductors entities, although resulting financial effects may vary depending on the magnitude of emissions and the prevailing emissions regulations. Entities that cost-effectively manage GHG emissions through greater energy efficiency, the use of alternative chemicals or manufacturing process advances may benefit from improved operating efficiency and reduced regulatory risk.
    • Energy Management The category addresses environmental impacts associated with energy consumption. It addresses the company’s management of energy in manufacturing and/or for provision of products and services derived from utility providers (grid energy) not owned or controlled by the company. More specifically, it includes management of energy efficiency and intensity, energy mix, as well as grid reliance. Upstream (e.g., suppliers) and downstream (e.g., product use) energy use is not included in the scope.
      • Energy Management in Manufacturing Energy is a critical input for manufacturing semiconductor devices. The price of conventional grid electricity and volatility of fossil fuel prices may increase because of evolving climate change regulations and new incentives for energy efficiency and renewable energy, among other factors, while alternative energy sources become more cost-competitive. Decisions regarding energy sourcing and type, as well as alternative energy use, may create trade-offs related to the energy supply’s cost and reliability for operations. As industry innovation adds complexity to manufacturing processes, new technologies to manufacture semiconductors may consume more energy unless entities invest in the energy efficiency of their operations. The way an entity manages energy efficiency, reliance on different types of energy, the associated sustainability risks, and alternative energy source access may affect financial performance.
    • Water & Wastewater Management The category addresses a company’s water use, water consumption, wastewater generation, and other impacts of operations on water resources, which may be influenced by regional differences in the availability and quality of and competition for water resources. More specifically, it addresses management strategies including, but not limited to, water efficiency, intensity, and recycling. Lastly, the category also addresses management of wastewater treatment and discharge, including groundwater and aquifer pollution.
      • Water Management Water is critical to the semiconductor production process, which requires significant volumes of ‘ultra-pure’ water for cleaning purposes, to avoid trace molecules from affecting product quality. As manufacturing becomes more complex, entities in the industry are discovering the importance of reducing ultra-pure water use. Water is becoming a scarce resource around the world, because of increasing consumption from population growth and rapid urbanisation, and reduced supplies because of climate change. Furthermore, water pollution in developing countries makes available water supplies unusable or expensive to treat. Without careful planning, water scarcity may result in higher supply costs, social tensions with local communities and governments, or loss of water access in water-scarce regions, thereby presenting a critical risk to production. Semiconductor entities that increase water use efficiency during manufacturing may maintain a lower risk profile and face reduced regulatory risks as local, regional and national environmental laws place increasing emphasis on resource conservation.
    • Waste & Hazardous Materials Management The category addresses environmental issues associated with hazardous and non-hazardous waste generated by companies. It addresses a company’s management of solid wastes in manufacturing, agriculture, and other industrial processes. It covers treatment, handling, storage, disposal, and regulatory compliance. The category does not cover emissions to air or wastewater nor does it cover waste from end-of-life of products, which are addressed in separate categories.
      • Waste Management Semiconductor manufacturing requires hazardous materials, many of which are subject to environmental, health and safety regulations, and generate harmful waste, which may be released into the environment in the form of water and air emissions, as well as solid waste. The handling and disposal of hazardous wastes produced during manufacturing may result in increased operating costs, capital expenditures, and in some instances, regulatory costs. Entities that reduce waste produced during manufacturing and ensure it is reused, recycled or disposed of appropriately may achieve a lower risk profile and face reduced regulatory risks as local, regional and national environmental laws place increasing emphasis on resource conservation and waste management.
    • Employee Health & Safety The category addresses a company’s ability to create and maintain a safe and healthy workplace environment that is free of injuries, fatalities, and illness (both chronic and acute). It is traditionally accomplished through implementing safety management plans, developing training requirements for employees and contractors, and conducting regular audits of their own practices as well as those of their subcontractors. The category further captures how companies ensure physical and mental health of workforce through technology, training, corporate culture, regulatory compliance, monitoring and testing, and personal protective equipment.
      • Workforce Health & Safety The long-term effects of chemical usage in semiconductor manufacturing on worker health is a major area of concern for the industry. Workers in fabrication facilities, particularly maintenance workers, are at risk of exposure to chemicals known to be hazardous to human health. Violations of health and safety standards may result in monetary penalties and additional costs of corrective actions, with effects on net profits and contingent liabilities. Furthermore, such violations also may result in non-monetary penalties and reputational impacts which may decrease revenues, as well as market share. Effective management of health and safety issues include implementing effective engineering controls, introducing less hazardous chemicals if possible or using smaller amounts, and seeking chemicals presenting the fewest risks to the workforce. In addition to protecting brand value, entities taking these measures may also protect themselves from adverse legal outcomes related to both regulated and unregulated hazardous substances.
    • Employee Engagement, Diversity & Inclusion The category addresses a company’s ability to ensure that its culture and hiring and promotion practices embrace the building of a diverse and inclusive workforce that reflects the makeup of local talent pools and its customer base. It addresses the issues of discriminatory practices on the bases of race, gender, ethnicity, religion, sexual orientation, and other factors.
      • Recruiting & Managing a Global & Skilled Workforce Employees are important contributors to value creation in the Semiconductors industry. Entities face competition and challenges in recruiting qualified employees globally, including electrical engineers, research scientists and process engineers. Compensation for such employees is a significant cost component for the industry. Semiconductors entities may improve their competitive positioning by establishing education, training and recruitment policies that develop and leverage the talents of skilled, global employees to meet their human capital needs. Such initiatives may help drive innovation and improve worker productivity, thereby improving access to new markets and possible new sources of revenue, while also creating a more engaged workforce and reducing employee turnover.
    • Product Design & Lifecycle Management The category addresses incorporation of environmental, social, and governance (ESG) considerations in characteristics of products and services provided or sold by the company. It includes, but is not limited to, managing the lifecycle impacts of products and services, such as those related to packaging, distribution, use-phase resource intensity, and other environmental and social externalities that may occur during their use-phase or at the end of life. The category captures a company’s ability to address customer and societal demand for more sustainable products and services as well as to meet evolving environmental and social regulation. It does not address direct environmental or social impacts of the company’s operations nor does it address health and safety risks to consumers from product use, which are covered in other categories.
      • Product Lifecycle Management As an increasing number of devices become connected to each other and to the internet, semiconductor entities face greater demand for products that increase computing power and decrease energy costs. Semiconductor machinery and device manufacturers may reduce the environmental and human health impacts of their products by increasing the energy-efficiency of equipment and chips and reducing the use of harmful materials in products. As consumer demand grows for energy-efficient devices that increase battery life, reduce heat output and decrease energy consumption, semiconductor manufacturers that satisfy these may gain a competitive advantage, driving revenue and market share growth. Entities also may benefit from reducing the use of toxic materials from chips destined for consumer devices, which has implications for the end-of-life management of electronic waste, an issue of growing legislative importance in many countries.
    • Materials Sourcing & Efficiency The category addresses issues related to the resilience of materials supply chains to impacts of climate change and other external environmental and social factors. It captures the impacts of such external factors on operational activity of suppliers, which can further affect availability and pricing of key resources. It addresses a company’s ability to manage these risks through product design, manufacturing, and end-of-life management, such as by using of recycled and renewable materials, reducing the use of key materials (dematerialization), maximizing resource efficiency in manufacturing, and making R&D investments in substitute materials. Additionally, companies can manage these issues by screening, selection, monitoring, and engagement with suppliers to ensure their resilience to external risks. It does not address issues associated with environmental and social externalities created by operational activity of individual suppliers, which is covered in a separate category.
      • Materials Sourcing Entities in the Semiconductors industry rely on numerous critical materials as important inputs for finished products. Many of these inputs have few or no available substitutes and often are sourced from only a few countries, many of which may be subject to geopolitical uncertainty. Other sustainability impacts related to climate change, land use, resource scarcity and conflict in regions where the industry’s supply chain operates are also increasingly shaping the industry’s ability to source materials. Additionally, increased competition for these materials because of growing global demand from other sectors may result in price increases and supply risks. The management of potential materials shortages, supply disruptions, price volatility and reputational risks is made more difficult by the practice of commonly sourcing materials from supply chains that often lack transparency. Failure to effectively manage this issue may constrain access to necessary materials, reduce margins, impair revenue growth or increase costs of capital.
    • Physical Impacts of Climate Change The category addresses the company’s ability to manage risks and opportunities associated with direct exposure of its owned or controlled assets and operations to actual or potential physical impacts of climate change. It captures environmental and social issues that may arise from operational disruptions due to physical impacts of climate change. It further captures socio-economic issues resulting from companies failing to incorporate climate change consideration in products and services sold, such as insurance policies and mortgages. The category relates to the company’s ability to adapt to increased frequency and severity of extreme weather, shifting climate, sea level risk, and other expected physical impacts of climate change. Management may involve enhancing resiliency of physical assets and/or surrounding infrastructure as well as incorporation of climate change-related considerations into key business activities (e.g., mortgage and insurance underwriting, planning and development of real estate projects).
      None
    • Competitive Behaviour The category covers social issues associated with existence of monopolies, which may include, but are not limited to, excessive prices, poor quality of service, and inefficiencies. It addresses a company’s management of legal and social expectation around monopolistic and anti-competitive practices, including issues related to bargaining power, collusion, price fixing or manipulation, and protection of patents and intellectual property (IP).
      • Intellectual Property Protection & Competitive Behaviour Although intellectual property (IP) protection is inherent to the Semiconductors industry business model, entities’ IP practices may be a contentious social issue. IP protection can be an important driver of innovation, but some entities may also acquire and enforce patents and other IP protection to restrict competition, particularly if they are dominant market players. Industry standard-setting can involve complex negotiations over patent rights and licensing terms, and entities use cross-licenses and patent pools to address difficulties around patent thickets. However, such industry cooperation also may raise antitrust concerns, for example, with provisions in portfolio cross-licenses that could enable price fixing. Adverse legal or regulatory rulings related to antitrust and IP may expose software and IT services entities to costly and lengthy litigations and potential monetary losses as a result. Such rulings may also affect an entity’s market share and pricing power, if its patents or dominant position in important markets are challenged legally, with significant financial consequences. Therefore, entities that balance the IP protection and its use to spur innovation and ensure their IP management and other business practices do not unfairly restrict competition may reduce regulatory scrutiny and legal actions while protecting market value.
  • Real Estate Remove
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    • GHG Emissions The category addresses direct (Scope 1) greenhouse gas (GHG) emissions that a company generates through its operations. This includes GHG emissions from stationary (e.g., factories, power plants) and mobile sources (e.g., trucks, delivery vehicles, planes), whether a result of combustion of fuel or non-combusted direct releases during activities such as natural resource extraction, power generation, land use, or biogenic processes. The category further includes management of regulatory risks, environmental compliance, and reputational risks and opportunities, as they related to direct GHG emissions. The seven GHGs covered under the Kyoto Protocol are included within the category—carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulfur hexafluoride (SF6), and nitrogen trifluoride (NF3).
      None
    • Energy Management The category addresses environmental impacts associated with energy consumption. It addresses the company’s management of energy in manufacturing and/or for provision of products and services derived from utility providers (grid energy) not owned or controlled by the company. More specifically, it includes management of energy efficiency and intensity, energy mix, as well as grid reliance. Upstream (e.g., suppliers) and downstream (e.g., product use) energy use is not included in the scope.
      • Energy Management Real estate assets consume significant amounts of energy for space heating, ventilating, air conditioning, water heating, lighting and using equipment and appliances. The type and magnitude of energy used and strategies for energy management are dependent upon the real estate asset class, among other factors. Generally, grid electricity is the predominant form of consumed energy, though on-site fuel combustion and renewable energy production also serve important roles. Energy costs may be borne by entities or property occupants; either way, energy management is a significant industry issue. To the extent that the real estate owner assumes direct responsibility for energy costs, such costs often represent significant operating costs, indicating the importance of energy management. Energy pricing volatility and a general trend of electricity price increases, energy-related regulations, potentially wide variations in energy performance in existing building stock, and opportunities for efficiency improvements through economically attractive capital investments all show the importance of energy management. Energy costs assumed by occupants, either in whole or in part, are nonetheless likely to affect entities through various channels. Building energy performance is a notable driver of tenant demand, because it allows them to control operating costs, mitigate potential environmental impacts, and, often just as importantly, maintain a reputation for resource conservation. Additionally, real estate owners may be exposed to energy-related regulations even if energy costs are the occupants’ responsibility. Overall, entities that effectively manage asset energy performance may realise reduced operating costs and regulatory risks, as well as increased tenant demand, rental rates and occupancy rates—all of which drive revenue and asset value appreciation. Improving energy performance is dependent upon property type and location, target tenant market, local building codes, physical and legal opportunities to deploy distributed renewable energy, the ability to measure consumption, and existing building stock, among other factors.
    • Water & Wastewater Management The category addresses a company’s water use, water consumption, wastewater generation, and other impacts of operations on water resources, which may be influenced by regional differences in the availability and quality of and competition for water resources. More specifically, it addresses management strategies including, but not limited to, water efficiency, intensity, and recycling. Lastly, the category also addresses management of wastewater treatment and discharge, including groundwater and aquifer pollution.
      • Water Management Buildings consume significant amounts of water in their operations, through water fixtures, building equipment, appliances and irrigation. Water consumption operating costs may be significant depending on property type, tenant operations, geographical locations and other factors. Entities can be responsible for a building’s water costs, or common area water costs, though entities commonly allocate all, or a portion, of these costs to occupants. In these arrangements, water management through tenant demand and regulatory exposure continues to be important. Tenants may assess real estate asset water efficiency to control operating costs, mitigate environmental impacts of operations, and, often just as importantly, develop a reputation for resource conservation. Additionally, real estate owners may comply with water-related regulations even if water costs are the occupants’ responsibility. Overall, entities that effectively manage asset water efficiency, even if they bear no direct water costs, may realise reduced operating costs and regulatory exposure, as well as increased tenant demand, rental rates and occupancy rates—all of which drive revenue and asset value appreciation. Long-term historic water expense increases and expectations of continued increases because of overconsumption and constrained supplies resulting from population growth and shifts, pollution and climate change show the importance of water management. Improving asset water efficiency is dependent upon the property type, water availability, target tenant market, local building codes, the ability to measure consumption and the existing building stock, among other factors.
    • Waste & Hazardous Materials Management The category addresses environmental issues associated with hazardous and non-hazardous waste generated by companies. It addresses a company’s management of solid wastes in manufacturing, agriculture, and other industrial processes. It covers treatment, handling, storage, disposal, and regulatory compliance. The category does not cover emissions to air or wastewater nor does it cover waste from end-of-life of products, which are addressed in separate categories.
      None
    • Employee Health & Safety The category addresses a company’s ability to create and maintain a safe and healthy workplace environment that is free of injuries, fatalities, and illness (both chronic and acute). It is traditionally accomplished through implementing safety management plans, developing training requirements for employees and contractors, and conducting regular audits of their own practices as well as those of their subcontractors. The category further captures how companies ensure physical and mental health of workforce through technology, training, corporate culture, regulatory compliance, monitoring and testing, and personal protective equipment.
      None
    • Employee Engagement, Diversity & Inclusion The category addresses a company’s ability to ensure that its culture and hiring and promotion practices embrace the building of a diverse and inclusive workforce that reflects the makeup of local talent pools and its customer base. It addresses the issues of discriminatory practices on the bases of race, gender, ethnicity, religion, sexual orientation, and other factors.
      None
    • Product Design & Lifecycle Management The category addresses incorporation of environmental, social, and governance (ESG) considerations in characteristics of products and services provided or sold by the company. It includes, but is not limited to, managing the lifecycle impacts of products and services, such as those related to packaging, distribution, use-phase resource intensity, and other environmental and social externalities that may occur during their use-phase or at the end of life. The category captures a company’s ability to address customer and societal demand for more sustainable products and services as well as to meet evolving environmental and social regulation. It does not address direct environmental or social impacts of the company’s operations nor does it address health and safety risks to consumers from product use, which are covered in other categories.
      • Management of Tenant Sustainability Impacts Real estate assets generate significant sustainability impacts, including resource consumption (energy and water), waste generation and impacts on occupant health through indoor environmental quality. While entities own real estate assets, the tenant operations of such assets dominate the sustainability impacts produced by the built environment. Tenants may design and construct leased spaces according to their operating needs. In turn, their operations consume significant amounts of energy and water, generate waste, and impact the health of those living, working, shopping, or visiting the properties. While these sustainability impacts often are often generated by tenant operations and activities, real estate owners play an important role in influencing tenant sustainability impacts. The way entities in the industry structure their agreements, contracts and relationships with tenants may be instrumental in managing the sustainability impacts of their tenants effectively, and ultimately, the impacts of their assets. Managing tenant sustainability impacts may include mitigating the problem of split incentives by aligning both parties’ financial interests with sustainability outcomes, establishing systematic measurement and communication of resource consumption data, creating shared performance goals, and mandating minimum sustainability performance or design requirements, among other strategies. Effective management of tenant sustainability impacts, particularly related to energy, water and indoor environmental quality, may drive asset value appreciation, increase tenant demand and satisfaction, decrease direct operating costs, or decrease risks related to building codes and regulations.
    • Materials Sourcing & Efficiency The category addresses issues related to the resilience of materials supply chains to impacts of climate change and other external environmental and social factors. It captures the impacts of such external factors on operational activity of suppliers, which can further affect availability and pricing of key resources. It addresses a company’s ability to manage these risks through product design, manufacturing, and end-of-life management, such as by using of recycled and renewable materials, reducing the use of key materials (dematerialization), maximizing resource efficiency in manufacturing, and making R&D investments in substitute materials. Additionally, companies can manage these issues by screening, selection, monitoring, and engagement with suppliers to ensure their resilience to external risks. It does not address issues associated with environmental and social externalities created by operational activity of individual suppliers, which is covered in a separate category.
      None
    • Physical Impacts of Climate Change The category addresses the company’s ability to manage risks and opportunities associated with direct exposure of its owned or controlled assets and operations to actual or potential physical impacts of climate change. It captures environmental and social issues that may arise from operational disruptions due to physical impacts of climate change. It further captures socio-economic issues resulting from companies failing to incorporate climate change consideration in products and services sold, such as insurance policies and mortgages. The category relates to the company’s ability to adapt to increased frequency and severity of extreme weather, shifting climate, sea level risk, and other expected physical impacts of climate change. Management may involve enhancing resiliency of physical assets and/or surrounding infrastructure as well as incorporation of climate change-related considerations into key business activities (e.g., mortgage and insurance underwriting, planning and development of real estate projects).
      • Climate Change Adaptation Climate change affects entities in the industry via frequent or high-impact extreme weather events and changing climate patterns. How an entity structures its business model to incorporate assessments of climate change risks, and the adaptation to such risks, may increasingly be relevant to entity value over the long-term. More specifically, investment strategies with assets located on floodplains and in coastal regions exposed to inclement weather may require increased risk mitigation and business model adaptation to long-term climate change. These strategies are especially important considering the long-term challenges associated with flood insurance rates, the financial stability of government-subsidised flood insurance programs, and financing stipulations or other creditor concerns. Besides insurance, other risk mitigation measures include improvements to physical asset resiliency and lease terms that transfer risk to tenants, although these measures can create their own costs and risks for real estate entities. To ensure long-term growth, entities must implement comprehensive climate change adaptation strategies, account for trade-offs between various risk mitigation strategies, and integrate all projected cost and benefit considerations over the long-term.
    • Competitive Behaviour The category covers social issues associated with existence of monopolies, which may include, but are not limited to, excessive prices, poor quality of service, and inefficiencies. It addresses a company’s management of legal and social expectation around monopolistic and anti-competitive practices, including issues related to bargaining power, collusion, price fixing or manipulation, and protection of patents and intellectual property (IP).
      None

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