TENANT STOREFRONT GLAZING PACKAGE

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1 TENANT STOREFRONT GLAZING PACKAGE Updated March 2018 CENTURY CITY

2 Tenant Storefront Glazing Design Package Updated March 2018 Westfield Century City Los Angeles, California As outlined in the Retail Design Criteria, all storefronts at Westfield Century City are to include an element of full height glazing secured in a recessed glazing channel top and bottom. This Glazing Design Package helps to provide the Tenant s designer, architect and engineers with the base guideline to develop a final glazing solution that complies with the Westfield Design Criteria, the 2017 California Building and Title 24 Energy Conservation Codes. Option 1 Full Height Clear Glass (one piece) - The Landlord preference is for storefront glazing to be as clear and thin as possible. Glazing in one piece is preferable. Glazing specification will depend on how Title 24 is calculated and therefore what meets the relevant codes. Confirm with the architect, MEP consultants and your Westfield Tenant Coordinator as to what is achievable. All glazing must meet the minimum requirements set out in the Technical Design Criteria. If storefront glazing is not able to be installed as one piece, tenants are permitted to split the required element of full height glazing into two vertically stacked pieces. There are four (4) Storefront Design Options, noted below and on the following detail pages, which are approved by the Landlord to achieve the full height glazing in two pieces: Option 2 Glass Fin System is comprised of two (2) stacked panels with a structural silicone horizontal buttjoint between the units. Glazing is supported with glass fins from the ceiling and a metal clip system. The glazing units must be secured on three sides and the upper unit may need some additional structural support. This method must be verified by your Architect / Engineer to ensure compliance with all jurisdictions. Local fabricators are listed in this document. Option 3 Stacked Steel System is comprised of two (2) stacked panels with a structural silicone horizontal butt-joint between the units. Glazing is supported with structural steel verticals which will give an industrial steel look. The glazing units must be secured on three sides and the upper unit may need some additional structural support. This method must be verified by your Architect / Engineer to ensure compliance with all jurisdictions. Local fabricators are listed in this document. Option 4 Custom Steel System, is a variation of Option 1 in that a structural steel system is used to support two (2) stacked panels and give an industrial steel look. This option uses a steel horizontal under the top glazing unit. This method must be verified by your Architect / Engineer to ensure compliance with all jurisdictions. Local fabricators are listed in this document. Option 5 Curtain Wall System is comprised of two (2) stacked panels secured at their juncture via a minimal mullion system using the Kawneer Encore system, or equal. The connected panels are then attached top and bottom to the base building. Standard clear anodized aluminum finish will not be accepted. This storefront option is the least desired by the landlord. If tenants must use the Prescriptive Method to calculate their Title 24, the most tinted glazing specification that Westfield will accept is SunGuard SNX 62/27 or its equal. It is not recommended as this glass has a low-e coating that makes the glazing tinted and reflective. Please endevour to use glass that is as clear and thin as possible.

Glass Performance Spec Sheets and General Structural Details in this package have been provided as a guideline for the Tenant s Designers and Engineers.

3 Glass Performance Spec Sheets and General Structural Details in this package have been provided as a guideline for the Tenant s Designers and Engineers. Just as each Tenant s façade will be unique to their brand, so will their storefront glazing solution. Static, lateral, and wind loads must be taken into consideration as well as varying base building conditions, soffit framing, etc. It is a fairly complex component of the larger store design that should be delved into early on in order to adequately design and engineer a comprehensive storefront system. Engineered shop drawings will be required by both Landlord and the Building Department for review. Other potentially helpful information includes: Los Angeles Research Report Numbers Structural Glazing Silicone 1. Dow Corning Structural Sealant: LARR # ProGlaze II SSG Structural Glazing Silicone: LARR# Glass Manufacturers Produce the raw glass material and apply coatings 3. Guardian Glass Attn: Mr. Jason jwesely@guardian.com 4. PPG Glass Glass Fabricators Produce the Insulated Glass Units (IGU) or Fabricated Units 1. GlassWerks Attn: Sandy sandyn@glasswerks.com 2. GlasPro Attn: Joe jgreen@glas-pro.com 3. Garibaldi Attn: : Old Castle Building Envelope Attn: Louie / lplascencia@obe.com Glaziers / Glass Installers Installs the fabricated units into the window system into the building. 1. D&R Glass, Inc. Office: (909) AGA [Architectural Glass and Aluminum] Attn: Jim hanna-jhanna@aga-ca.com 3. Woodbridge Glass Attn: Matt kamper-mattk@woodbridgeglass.com 4. Richelieu Glass Company Attn: Tri City Glass Attn: Huntington Glass Attn: Miguel Nathan s Glass Attn: Oren oren@nathanslgass.com 8. National Mallfront and Design Attn: Bill BHammontree@NMDCORP.COM Steel Fabricators Custom steel fabricated system

4 THESE DRAWINGS ARE CONCEPTUAL IN NATURE ONLY. TENANT ARCHITECT TO CONFIRM COMPLIANCE OF ALL GLAZING SYSTEMS Option 1: Full Height Glazing WESTFIELD CENTURY CITY FIXED WITH RECESSED HEADER CHANNEL SEE HEADER DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE. DRAWING NOT TO SCALE AS REQUIRED LAMINATED VARIES GLAZING UNITS FIXED WITH RECESSED BASE CHANNEL SEE BASE DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE Page 5

5 THESE DRAWINGS ARE CONCEPTUAL IN NATURE ONLY. TENANT ARCHITECT TO CONFIRM COMPLIANCE OF ALL GLAZING SYSTEMS Option 2: Glass Fin System WESTFIELD CENTURY CITY SEE HEADER DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE. DRAWING NOT TO SCALE GLASS AS REQUIRED VARIES COORDINATE DETAILS WITH LANDLORD SEE BASE DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE PAGE 3

6 THESE DRAWINGS ARE CONCEPTUAL IN NATURE ONLY. TENANT ARCHITECT TO CONFIRM COMPLIANCE OF ALL GLAZING SYSTEMS Option 3: Stacked Steel System WESTFIELD CENTURY CITY FIXED WITH RECESSED HEADER CHANNEL SEE HEADER DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE. DRAWING NOT TO SCALE STEEL VERTICALS, CUSTOM FABRICATED STRUCTURAL SILICONE HORIZONTAL BUTT JOINT AS REQUIRED STRUCTURAL SILICONE HORIZONTAL BUTT JOINT GLASS - SPEC LAMINATED VARIES GLAZING UNITS FIXED WITH RECESSED BASE CHANNEL SEE BASE DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE Page 4

7 FIXED WITH RECESSED HEADER CHANNEL THESE DRAWINGS ARE CONCEPTUAL IN NATURE ONLY. TENANT ARCHITECT TO CONFIRM COMPLIANCE OF ALL GLAZING SYSTEMS Option 4: Custom Steel System SEE HEADER DETAIL IN BASE BUILDING CONSTRUCTION SEE DRAWINGS HEADER FOR DETAIL APPLICABLE IN BASE BUILDING STOREFRONT CONSTRUCTION ZONE DRAWINGS FOR APPLICABLE STOREFRONT ZONE. DRAWING NOT TO SCALE WESTFIELD CENTURY CITY STEEL SYSTEM, CUSTOM FABRICATED GLASS - SPEC LAMINATED VARIES GLAZING UNITS FIXED WITH RECESSED BASE CHANNEL SEE BASE DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE Page 5

8 THESE DRAWINGS ARE CONCEPTUAL IN NATURE ONLY. TENANT ARCHITECT TO CONFIRM COMPLIANCE OF ALL GLAZING SYSTEMS Option 5: Curtain Wall System STANDARD CLEAR ANODIZED ALUMINUM FINISH WILL NOT BE ACCEPTED WESTFIELD CENTURY CITY SEE HEADER DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE. DRAWING NOT TO SCALE FIXED WITH RECESSED HEADER CHANNEL 5/8" VARIES 1 3/4" GLAZING UNITS OR EQUAL. COORDINATE SPECIFICATION FOR LANDLORD REVIEW FIXED WITH RECESSED BASE CHANNEL SEE BASE DETAIL IN BASE BUILDING CONSTRUCTION DRAWINGS FOR APPLICABLE STOREFRONT ZONE Page 6

9 Westfield Century City - Specified Units PERFORMANCE CALCULATOR If tenants must use November the Prescriptive 17, 2016 Prepared Method for to calculate Mike Jones their / Sidley Title Jones 24, the most tinted glazing specification that Westfield will accept By Wesely, is Jason jwesely@guardian.com SunGuard SNX 62/27 or its equal. It is not recommended as this glass has a low-e coating that makes the glazing tinted and reflective. Please endevour to use glass that is as clear and thin as possible. Locally Produced And Manufactured Product Guardian SunGuard products provide you the opportunity to achieve 1-2 additional LEED points for Regional Materials (Material and Resources Credit 5: Regional Materials). Many of our low-e products on Clear, CrystalGray and CrystalBlue are manufactured and produced at Guardian s Kingsburg, CA plant with the primary raw materials coming from within 200 miles of this facility. Make-up Name Visible (τ v %) Transmittance Reflectance U-Value Tdw (T dw %) Solar (τ e %) Visible Solar Winter Night (Btu/hr ft² F ρ v % out ρ v % in ρ e % out ) Summer Day (Btu/hr ft² F ) Relative Heat Gain (RHG) Shadin g Coeffici ent (sc) Solar Heat Gain Coeffici ent (SHGC) Light To Solar Gain (LSG) Color Renderi ng Index (R a ) Sound Transm ission Class (STC) A1 - SNX 62/27 on UltraClear Insulating B1 - SNX 62/27 on UltraClear Insulating Laminated Calculation Standard: NFRC 2010 A1 - SNX 62/27 on UltraClear Insulating N/A Outdoors GAP 100% Air, 1/2" = 12.7 mm # #2 SunGuard SNX 62/27 (North America) # # Total Unit = in / mm Slope = 90 Window Height = 1 meter Indoors B1 - SNX 62/27 on UltraClear Insulating Laminated Outdoors PVB GAP 0.060" (1.52mm) Saflex R Clear PVB 100% Air, 1/2" = 12.7 mm # # # #4 SunGuard SNX 62/27 (North America) # # Total Unit = in / mm Slope = 90 Window Height = 1 meter Indoors Page 8

10 PERFORMANCE CALCULATOR a* b* Color Information: Outdoor Reflected Color Important Notes The performance values shown above represent NOMINAL VALUES for the center of glass with no spacer system or framing. Slight variations may occur due to manufacturing tolerances, point of manufacture, and type of instrumentation used to measure the optical properties. For configurations that include non-specular (diffuse) components, performance results cannot be verified and should only be used as a general indication of performance. For configurations which include ceramic frit coating, the actual values may vary significantly based upon the thickness and composition of the frit. For configurations with coatings laminated facing the PVB, there may be a noticeable color change. Guardian recommends a full size mock-up be approved. Calculations and terms in this report are based on NFRC Please note that the THERMAL STRESS GUIDELINE is only a rough reference to the thermal safety of a glazing. Other factors such as the size of glass areas, shapes and patterns, glass thickness, glass damaged during shipping, handling or installation, orientation of the building, exterior shading, overhangs/fins that reduce wind speed, and areas with high daily temperature fluctuations can all increase the probability of thermal breakage. The results shown are not for any specific glazing installation and do not constitute a warranty against glass breakage. Explanation of Terms % Transmittance Visible or Light Transmittance (τ v %) is the percentage of visible light at normal incidence (90 to surface) that Page 9

11 PERFORMANCE CALCULATOR is transmitted by the glass. % Ultraviolet (UV) Transmittance (τ uv %) is the percentage of ultraviolet light at normal incidence directly transmitted by the glass. Ultraviolet Light is defined as radiant energy from the sun having a wavelength range of 300 nm to 380 nm. % Solar Energy Direct Transmittance (τ e %) is the percentage of solar energy at normal incidence directly transmitted by the glass. Solar Energy is the radiant energy from the sun having a wavelength range of 300 nm to 2500 nm. % Reflectance Visible Outdoors or Light Reflectance Out (ρ v % out) is the percentage of visible light at normal incidence directly reflected by the glass back outdoors. % Reflectance Visible Indoors or Light Reflectance In (ρ v % in) is the percentage of visible light at normal incidence directly reflected by the glass back indoors. % Solar Energy Reflected Outdoors or Solar Direct Reflectance Out (ρ e % out) is the percentage of solar energy at normal incidence directly reflected by the glass back outdoors. % Solar Energy Reflected Indoors or Solar Direct Reflectance In (ρ e % in) is the percentage of solar energy at normal incidence directly reflected by the glass back indoors. Absorptance (α e %) (Solar, Visible or UV) is defined as a process in which a range of radiation is retained by a substance and converted into heat energy. The creation of heat energy also causes the substance to emit its own radiation. U-Factor or U-Value (U G ) is the air-to-air thermal conductance of 39" high glazing and associated air films. US Standard units are Btu/hr.ft².F. and SI / Metric units are W/m²K. Winter night values are 12.3 mph wind at -0.4 F outdoors and 69.8 F still indoor air. Summer values are 0 sun, 6.15 mph wind at 89.6 F outdoors and 75.2 F still indoor air. Relative Heat Gain (RHG) is the total net heat gain to the indoors due to both the air-to-air thermal conductance and the solar heat gain. Imperial units are Btu/hr.ft². RHG = [(Summer U-Value)(89.6 F F) + (Shading Coefficient)(200 Btu/hr-ft²)]. Metric units are W/m². RHG = [(Summer U-Value)(32 C - 24 C) + (Shading Coef.)(631 W/m²)] Shading Coefficient (SC) is the fraction of solar heat, direct (300 to 2500 nm) plus indirect (5 to 40 µm), transferred indoors through the glass. For reference, 1/8" (3.1 mm) clear glass has a value of 1.00 (SC is an older term being replaced by the SHGC). Solar Heat Gain Coefficient (SHGC) is the fraction of solar energy incident on the glazing that is transferred indoors both directly and indirectly through the glazing. The direct gain portion equals the direct solar transmittance, while the indirect is the fraction of the solar energy absorbed to the energy reradiated and convected indoors. No heat gain from warmer outdoor air is included. SHGC = (Direct Solar Trans) + {[(Indirect Solar Heat Gain) - (Summer U-Value)(89.6 F F)] / ( Btu/hr-ft²)} Light-to-Solar Gain (LSG) is the ratio of visible light gain to solar gain. LSG = (Visible Transmittance) / (SHGC) Color Rendering Index in transmission, D65 (R a ) is the change in color of an object as a result of the light being transmitted by the glass. Weighted Sound Reduction Index (Rw) is a single-number quantity which characterizes the airborne sound insulation of a material or building element over a range of frequencies. Sound Transmission Class (STC) is a single-number quantity which characterizes the airborne sound insulation of a material or building element over a range of frequencies. Disclaimer This performance analysis is provided for the limited purpose of assisting the user in evaluating the performance of the glass products identified on this report. Spectral data for products manufactured by Guardian reflect nominal values derived from typical production samples. Spectral data for products not manufactured by Guardian were derived from the LBNL International Glazing Database and have not been independently verified by Guardian. The values calculated by this tool are generated according to established engineering practices and applicable calculation standards. Many factors may affect glass performance, including glass size, building orientation, shading, wind speed, type of installation, and others. The applicability and results of the analysis are directly related to user inputs and any changes in actual conditions can have a significant effect on the results. It is possible to create many different glazing types and glass make-ups using this tool. Guardian makes no guarantee that any glazing modeled by the tool is available from Guardian or any other manufacturer. The user has the responsibility to check with the manufacturer regarding availability of any glass type or make-up. While Guardian has made a good faith effort to verify the reliability of this tool, it may contain unknown programming errors that could result in incorrect results. The user assumes all risk relating to the results provided by the tool and is solely responsible for selection of appropriate products for the user's application. GUARDIAN MAKES NO EXPRESS OR IMPLIED WARRANTY OF ANY KIND WITH RESPECT TO THE PERFORMANCE CALCULATOR. THERE ARE NO WARRANTIES OF MERCHANTABILITY, NON-INFRINGEMENT OR FITNESS FOR A PARTICULAR PURPOSE WITH RESPECT TO THE PERFORMANCE CALCULATOR AND NO WARRANTY SHALL BE IMPLIED BY OPERATION OF LAW OR OTHERWISE. Page 10

12 PERFORMANCE CALCULATOR IN NO EVENT SHALL GUARDIAN BE LIABLE FOR DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL OR INCIDENTAL DAMAGES OF ANY KIND RELATING TO OR RESULTING FROM USE OF THE PERFORMANCE CALCULATOR. Program Version: Database Version: Page 11

13 PERFORMANCE CALCULATOR November 16, 2016 Prepared for Mike Jones / Sidley Jones By Wesely, Jason jwesely@guardian.com SunGuard IS Options A1-A3 & B1-B2 DO NOT meet the Title 24 Prescriptive Method. Product available in up to 168" (units to ~165") Make-up Name Visible (τ v %) Transmittance Reflectance U-Value Tdw (T dw %) Solar (τ e %) Visible Solar Winter Night (Btu/hr ft² F ρ v % out ρ v % in ρ e % out ) Summer Day (Btu/hr ft² F ) Relative Heat Gain (RHG) Shadin g Coeffici ent (sc) Solar Heat Gain Coeffici ent (SHGC) Light To Solar Gain (LSG) Color Renderi ng Index (R a ) Sound Transm ission Class (STC) A1 - SN 68 on UltraClear Lami IGU A2 - SN 68 on UltraClear & SunGuard IS Lami IGU A3 - SN 68 on UltraClear & SunGuard IS & Argon IGU B1 - SN 68 on UltraClear Laminated N/A N/A N/A B2 - SN 68 on UltraClear & SunGuard IS Laminated Calculation Standard: NFRC 2010 A1 - SN 68 on UltraClear Lami IGU Outdoors PVB GAP 0.060" (1.52 mm) DuPont SentryGlas N-UV 10% Air, 90% Argon, 1/2" = 12.7 mm # # # #4 SunGuard SN 68 (North America) # # Total Unit = in / mm Slope = 90 Window Height = 1 meter Indoors Page 12

14 PERFORMANCE CALCULATOR A2 - SN 68 on UltraClear & SunGuard IS Lami IGU Outdoors PVB GAP 0.060" (1.52 mm) DuPont SentryGlas N-UV 100% Air, 1/2" = 12.7 mm # # # #4 SunGuard SN 68 (North America) # #6 SunGuard IS 20 Interior Surface LE (North America) Total Unit = in / mm Slope = 90 Window Height = 1 meter IS 20 must be heat-treated for all applications and uses. Indoors A3 - SN 68 on UltraClear & SunGuard IS & Argon IGU Outdoors PVB GAP 0.060" (1.52 mm) DuPont SentryGlas N-UV 10% Air, 90% Argon, 1/2" = 12.7 mm # # # #4 SunGuard SN 68 (North America) # #6 SunGuard IS 20 Interior Surface LE (North America) Total Unit = in / mm Slope = 90 Window Height = 1 meter IS 20 must be heat-treated for all applications and uses. Indoors B1 - SN 68 on UltraClear Laminated Outdoors PVB 0.060" (1.52 mm) DuPont SentryGlas N-UV # #2 SunGuard SN 68 (North America) # # Total Unit = in / mm Slope = 90 Window Height = 1 meter Indoors Surface #2: Coating Placement Advisory: Guardian urges caution when this coating is placed facing the laminated interlayer due to a noticeable color change. Written approval of full-size mockup color strongly recommended before proceeding. Page 13

15 PERFORMANCE CALCULATOR B2 - SN 68 on UltraClear & SunGuard IS Laminated Outdoors PVB 0.060" (1.52 mm) DuPont SentryGlas N-UV # #2 SunGuard SN 68 (North America) # #4 SunGuard IS 20 Interior Surface LE (North America) Total Unit = in / mm Slope = 90 Window Height = 1 meter Indoors Surface #2: Coating Placement Advisory: Guardian urges caution when this coating is placed facing the laminated interlayer due to a noticeable color change. Written approval of full-size mockup color strongly recommended before proceeding. IS 20 must be heat-treated for all applications and uses. Page 14

PERFORMANCE CALCULATOR a* b* Color Information: Outdoor Reflected Color Due to potentially objectionable angle color, Guardian urges caution in using annealed or HT versions of SN 68 (herein referred

16 PERFORMANCE CALCULATOR a* b* Color Information: Outdoor Reflected Color Due to potentially objectionable angle color, Guardian urges caution in using annealed or HT versions of SN 68 (herein referred to as "SN coatings") in laminated make-ups with the coating facing the interlayer, for large expanse facade applications. When SN coatings are laminated facing an interlayer material, including but not limited to polyvinyl butyral (pvb), the coating s reflected outdoor color, that is the color viewable from the outside of the building, will shift to a red or purple color when viewed from an angle. This color is most noticeable when viewed from a distance at an angle of 45 degrees or more. This color is noticeable with clear or low-iron float glass and the coating on the inboard-facing surface (i.e. Surface #2). It is even more pronounced with a clear or low-iron float glass as the outboard lite and a tinted inboard lite. If the architect, owner, glazier or fabricator elects to use these products in a glass makeup as described above, Guardian strongly recommends that full-size mockups be manufactured and approved in writing prior to proceeding. I have read and understand this information and agree to secure written mock-up approval prior to proceeding with any glass make-up covered by this advisory. Name (print) Company Name (signature) Date Page 15

17 PERFORMANCE CALCULATOR Important Notes The performance values shown above represent NOMINAL VALUES for the center of glass with no spacer system or framing. Slight variations may occur due to manufacturing tolerances, point of manufacture, and type of instrumentation used to measure the optical properties. For configurations that include non-specular (diffuse) components, performance results cannot be verified and should only be used as a general indication of performance. For configurations which include ceramic frit coating, the actual values may vary significantly based upon the thickness and composition of the frit. For configurations with coatings laminated facing the PVB, there may be a noticeable color change. Guardian recommends a full size mock-up be approved. Calculations and terms in this report are based on NFRC Please note that the THERMAL STRESS GUIDELINE is only a rough reference to the thermal safety of a glazing. Other factors such as the size of glass areas, shapes and patterns, glass thickness, glass damaged during shipping, handling or installation, orientation of the building, exterior shading, overhangs/fins that reduce wind speed, and areas with high daily temperature fluctuations can all increase the probability of thermal breakage. The results shown are not for any specific glazing installation and do not constitute a warranty against glass breakage. Explanation of Terms % Transmittance Visible or Light Transmittance (τ v %) is the percentage of visible light at normal incidence (90 to surface) that is transmitted by the glass. % Ultraviolet (UV) Transmittance (τ uv %) is the percentage of ultraviolet light at normal incidence directly transmitted by the glass. Ultraviolet Light is defined as radiant energy from the sun having a wavelength range of 300 nm to 380 nm. % Solar Energy Direct Transmittance (τ e %) is the percentage of solar energy at normal incidence directly transmitted by the glass. Solar Energy is the radiant energy from the sun having a wavelength range of 300 nm to 2500 nm. % Reflectance Visible Outdoors or Light Reflectance Out (ρ v % out) is the percentage of visible light at normal incidence directly reflected by the glass back outdoors. % Reflectance Visible Indoors or Light Reflectance In (ρ v % in) is the percentage of visible light at normal incidence directly reflected by the glass back indoors. % Solar Energy Reflected Outdoors or Solar Direct Reflectance Out (ρ e % out) is the percentage of solar energy at normal incidence directly reflected by the glass back outdoors. % Solar Energy Reflected Indoors or Solar Direct Reflectance In (ρ e % in) is the percentage of solar energy at normal incidence directly reflected by the glass back indoors. Absorptance (α e %) (Solar, Visible or UV) is defined as a process in which a range of radiation is retained by a substance and converted into heat energy. The creation of heat energy also causes the substance to emit its own radiation. U-Factor or U-Value (U G ) is the air-to-air thermal conductance of 39" high glazing and associated air films. US Standard units are Btu/hr.ft².F. and SI / Metric units are W/m²K. Winter night values are 12.3 mph wind at -0.4 F outdoors and 69.8 F still indoor air. Summer values are 0 sun, 6.15 mph wind at 89.6 F outdoors and 75.2 F still indoor air. Relative Heat Gain (RHG) is the total net heat gain to the indoors due to both the air-to-air thermal conductance and the solar heat gain. Imperial units are Btu/hr.ft². RHG = [(Summer U-Value)(89.6 F F) + (Shading Coefficient)(200 Btu/hr-ft²)]. Metric units are W/m². RHG = [(Summer U-Value)(32 C - 24 C) + (Shading Coef.)(631 W/m²)] Shading Coefficient (SC) is the fraction of solar heat, direct (300 to 2500 nm) plus indirect (5 to 40 µm), transferred indoors through the glass. For reference, 1/8" (3.1 mm) clear glass has a value of 1.00 (SC is an older term being replaced by the SHGC). Solar Heat Gain Coefficient (SHGC) is the fraction of solar energy incident on the glazing that is transferred indoors both directly and indirectly through the glazing. The direct gain portion equals the direct solar transmittance, while the indirect is the fraction of the solar energy absorbed to the energy reradiated and convected indoors. No heat gain from warmer outdoor air is included. SHGC = (Direct Solar Trans) + {[(Indirect Solar Heat Gain) - (Summer U-Value)(89.6 F F)] / ( Btu/hr-ft²)} Light-to-Solar Gain (LSG) is the ratio of visible light gain to solar gain. LSG = (Visible Transmittance) / (SHGC) Color Rendering Index in transmission, D65 (R a ) is the change in color of an object as a result of the light being transmitted by the glass. Weighted Sound Reduction Index (Rw) is a single-number quantity which characterizes the airborne sound insulation of a material or building element over a range of frequencies. Page 16

18 PERFORMANCE CALCULATOR Sound Transmission Class (STC) is a single-number quantity which characterizes the airborne sound insulation of a material or building element over a range of frequencies. Disclaimer This performance analysis is provided for the limited purpose of assisting the user in evaluating the performance of the glass products identified on this report. Spectral data for products manufactured by Guardian reflect nominal values derived from typical production samples. Spectral data for products not manufactured by Guardian were derived from the LBNL International Glazing Database and have not been independently verified by Guardian. The values calculated by this tool are generated according to established engineering practices and applicable calculation standards. Many factors may affect glass performance, including glass size, building orientation, shading, wind speed, type of installation, and others. The applicability and results of the analysis are directly related to user inputs and any changes in actual conditions can have a significant effect on the results. It is possible to create many different glazing types and glass make-ups using this tool. Guardian makes no guarantee that any glazing modeled by the tool is available from Guardian or any other manufacturer. The user has the responsibility to check with the manufacturer regarding availability of any glass type or make-up. While Guardian has made a good faith effort to verify the reliability of this tool, it may contain unknown programming errors that could result in incorrect results. The user assumes all risk relating to the results provided by the tool and is solely responsible for selection of appropriate products for the user's application. GUARDIAN MAKES NO EXPRESS OR IMPLIED WARRANTY OF ANY KIND WITH RESPECT TO THE PERFORMANCE CALCULATOR. THERE ARE NO WARRANTIES OF MERCHANTABILITY, NON-INFRINGEMENT OR FITNESS FOR A PARTICULAR PURPOSE WITH RESPECT TO THE PERFORMANCE CALCULATOR AND NO WARRANTY SHALL BE IMPLIED BY OPERATION OF LAW OR OTHERWISE. IN NO EVENT SHALL GUARDIAN BE LIABLE FOR DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL OR INCIDENTAL DAMAGES OF ANY KIND RELATING TO OR RESULTING FROM USE OF THE PERFORMANCE CALCULATOR. Program Version: Database Version: Page 17

2016 ENERGY CODE Ace Resources Energy Code Ace Helping you play your cards right Title 24, Part 6 Fact Sheet Overview Changes to the nonresidential requirements in the 2016 Building Energy Efficiency

The standards have been adopted, and once approved, will be implemented for projects permitted on or after January 1, 2017.

DOOR AND WINDOW INTERLOCKS DIRECT DIGITAL CONTROLS ELEVATORS Figure 1: 2016 Energy Standards Update Infographic by the Energy Commission In addition, the 2016 Energy Standards have set out to

19 2016 ENERGY CODE Ace Resources Energy Code Ace Helping you play your cards right Title 24, Part 6 Fact Sheet Overview Changes to the nonresidential requirements in the 2016 Building Energy Efficiency Standards (Energy Standards) largely follow ASHRAE 90.1 national standards and include energy conservation measures related to the building systems shown in Figure 1. The standards have been adopted, and once approved, will be implemented for projects permitted on or after January 1, For more detailed information, see the related California Energy Commission (Energy Commission) FAQ sheet. DOOR AND WINDOW INTERLOCKS DIRECT DIGITAL CONTROLS ELEVATORS Figure 1: 2016 Energy Standards Update Infographic by the Energy Commission In addition, the 2016 Energy Standards have set out to simplify and clarify several areas that were new in the 2013 Energy Standards, which were identified during the public comment period as needing clarification. Compliance Tools The Compliance Manuals and other related manuals are being updated to reflect the adopted 2016 Energy Standards and are planned to be available in early 2016 on the Energy Commission s website. In addition, Energy Code Ace is working with the Energy Commission to produce a suite of 2016 Energy Standards Application Guides, which will provide project examples and other information that may be helpful in applying the energy code requirements. Look for these and other new tools, training and resources on EnergyCodeAce.com during the summer of CBECC-Com, the state-funded nonresidential computer simulation tool, has been updated for the 2016 Energy Standards as well. A certified version is publicly available for free download now. This was developed early in order to give users time to utilize the software prior to the January 2017 implementation date. Nonresidential What s New with 2016 Code? OUTDOOR LIGHTING ESCALATORS Title 24, Part 6 - Nonresidential What s New with 2016 Code Page 18 Figure 2: CBECC-Com 2016 Interface Envelope Highlights Prescriptive insulation requirements for roofs and ceilings have become more stringent under the 2016 Energy Standards. Additionally, prescriptive insulation requirements have become more stringent for metal and wood-framed walls in certain climate zones. Mandatory Requirements Section Wall Insulation levels have been changed to the following: Metal framed: U-factor = (R-13 w/r-2) Metal demising: U-factor = (R-13 w/r-2) All other mandatory insulation levels are unchanged. Additional exceptions apply for dedicated data centers. Prescriptive Requirements Section Prescriptive envelope requirements in Table B have been updated for Nonresidential buildings. Prescriptive envelope requirements in Table C have been updated for High-Rise Residential and Hotel/Motels. The prescriptive Roof/Ceiling Insulation Tradeoff for Aged Solar Reflectance Table has been updated as shown below. Requirements apply to roof replacements as well as new installations. Table Nonresidential Roof U-Factor Metal Building Aged Solar Reflectance All Zones Zones 6 & 7 Wood Framed and Other All other Zones

20 Process Equipment Highlights New to the 2016 Energy Standards are mandatory energy saving requirements for escalators and elevators. Acceptance testing will be required for controls requirements. Escalators and Moving Walkways Section 120.6(g) Escalators and moving walkways will be required to run at lower speeds when unoccupied (and thus a lower energy consuming state) while not in use in high traffic areas like airports, hotels, and transportation function areas. Elevators Section 120.6(f) Energy efficient lighting: Lighting Power Density (LPD) of 0.6 w/ft2 maximum Energy efficient fans: Ventilation fans for cabs without space conditioning shall not exceed 0.33 w/cfm Automatic shut-off controls on cab lighting and fans after 15 minutes of no service (stopped, unoccupied with doors closed) Lighting and ventilation must be operational during emergency stop situations while occupied with passengers. Mechanical Highlights Mandatory Equipment Efficiencies Section Mandatory equipment efficiencies for air conditioning units have increased as of 1/1/2016. Chiller and DX equipment efficiencies have become more stringent. Economizers Section (i) New mandatory requirements for Fault Detection and Diagnostics (FDD) on all economizers installed on new air-cooled packaged DX units with cooling capacity of 54,000 Btu/hr or greater. Stand alone or integrated FDD accepted per Section 120.2(i) of the 2016 Energy Standards. HVAC System Controls - Sections & Mandatory Direct Digital Controls (DDC): DDC shall be applied per Section 120.2(j) of the 2016 Energy Standards, Table A for new construction, additions, and alterations. Control logic must be capable of monitoring several points including fan pressure, pump pressure, heating and cooling, have optimum start/stop controls, and perform automatic information transfer among other requirements. Mandatory Optimum Start/Stop Controls: The control algorithm shall, as a minimum, be a function of the difference between space temperature and occupied setpoint, the outdoor air temperature, and the amount of time prior to scheduled occupancy. Additional requirements for mass radiant floor slab systems. Requirements per Section (k) of the 2016 Energy Standards. Prescriptive HVAC Shut-off Sensors for Windows and Doors: If windows or doors are left open for more than five minutes, sensors will adjust thermostats to disable the HVAC equipment by resetting the temperature setpoint to 55 F for mechanical heating and 90 F for mechanical cooling. Exemptions for doors with automatic closers or any space without thermostatic controls. Requirements per Section (n) of the 2016 Energy Standards. Commissioning Highlights A few important clarifications were made to the commissioning requirements in Section of the 2016 Energy Standards: Commissioning is required for all new buildings with nonresidential conditioned space, including nonresidential spaces in hotel/motel and high-rise residential buildings. The Owner s Project Requirements (OPR) must include building envelope performance expectations under the 2016 Energy Standards. Section in Part 1 specifies that the Design Reviewer may be a licensed architect or licensed contractor in addition to a professional engineer. Indoor Lighting Highlights The interior lighting mandatory and prescriptive requirements, as well as updates to the calculation methodologies are included below. Prescriptive Calculation Methodology Section Complete Building Method: Allowed Lighting Power Densities are reduced by 0.1 or less for half of building types listed in Table B. Area Category Method: Allowed Lighting Power Densities are reduced by 0.2 or less for a third of functional areas in Table C. Tailored Method: Lighting Power Density Values updated per Table G. Allowances in Table D remain unchanged. Indoor Lighting Controls Sections & Mandatory Shut-OFF Controls: Additional exception of 0.1 w/ft2 for egress in any building. Mandatory Multi-level Controls: Enclosed areas 100 ft2 or greater with a general lighting load greater than 0.5 w/ft2 must have multi-level controls as shown in Table A. Some exceptions apply for classrooms, public restrooms, and areas with one luminaire. Mandatory Partial-ON Occupancy Sensor: For areas requiring occupant sensing controls per Section 130.1(c)5 of the Standards (offices 250 ft2, multipurpose rooms < 1,000 ft2, classrooms, and conference rooms), and multilevel controls per Section130.1(b)of the 2016 Energy Standards, the occupant sensing controls shall function as partial-on (for 50-70% of controlled power) OR vacancy sensor (only manual ON). Where no multi-level controls are required per Section 130.1(b) of the 2016 Energy Standards, an automatic full-on occupancy sensor is acceptable. Control Credits: Power Adjustment Factors (PAF) listed in Table A have been updated and the following options have been added: Institutional Tuning: Limits maximum output or power draw of controlled lighting to 85% or less of full light output/draw. Daylight dimming plus OFF control: Turns lighting completely OFF when daylight in the daylit zone is greater than 150% of general lighting system at full power. 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21 Lighting Alterations The lighting alterations language for the prescriptive approach is included in the following sections. Lamp replacements or ballast replacements alone are not considered lighting alterations, provided that replacement lamps and/or ballasts are installed and powered without modifying the luminaire. Entire Luminaire Alterations Section 141.2I Lighting shall meet the lighting power allowance in Section of the 2016 Energy Standards and altered permanently installed luminaries shall meet the applicable requirements in Table E if the following options occur: Removing/reinstalling 10% or more of the existing luminaires (if there are more than 2) in a space, or Replacing or adding entire luminaires, or Adding, removing, or replacing walls or ceilings along with lighting redesign (changing the area or space type) When replacing existing luminaries and the alteration is not in conjunction with adding, removing or replacing walls or ceilings, the new luminaries must: Reduce rated power by 50% for office, retail and hotel occupancies and 35% for all others, compared to the original luminaires, at full light output, and Meet all the requirements in Sections listed in Lighting Alterations (see list below) Luminaire Component Modifications Section 141.2J Definition: Alterations that replace the ballasts or drivers and the associated lamps in the luminaire, or permanently change the light source or the optical system of the luminaire. Modifying the components of fewer than 70 existing luminaires on a single floor or within a tenant space within a year, does not trigger code. If there are 70 or more modifications per year on a single floor or tenant space, then the project needs to meet one of the following criteria: Meet lighting power allowance in Section of the 2016 Energy Standards, and comply with Table E or Reduce rated power by 50% for office, retail and hotel occupancies and 35% for all others, compared to the original luminaires, at full light output, and meet the requirements in Lighting Alterations Sections List. In addition, the modification should not prevent or disable multi-level, shut-off, or daylight controls. Lighting Wiring Alterations Section141.0(b)2K Definition: Alterations that add a circuit feeding luminaires, that replace, modify or relocate wiring between a switch or panelboard and luminaires, or replace lighting control panels, panelboards, or branch circuit wiring. Wiring alterations (unless strictly to add lighting controls) in each enclosed space shall meet the requirements in the following sections: Lighting Power Allowance in Section Section (a) 1, 2 and 3 Section (c)1a through C Section (c)3 and Section (c)4 And meet the following criteria: Each enclosed space must be wired to create a min. of one step between 30-70% of the lighting power or meet Section 130.1(c)4 of the 2016 Energy Standards. For each enclosed space where alterations include 10 or more luminaires that provide general lighting and are located in the primary sidelit daylit or skylit daylit zone, also meet the requirements of Section 130.1(d) of the 2016 Energy Standards. Exceptions for all lighting alterations: Alterations that would cause the disturbance of asbestos. Alterations affecting two or fewer luminaires in an enclosed space. Lighting control acceptance testing (per Section of the 2016 Energy Standards) is not required for alterations of a total of 20 or fewer controlled luminaires. Table E Requirements for Entire Luminaire Alterations Control Requirements Section (a)1,2 and 3 Area controls Section (b) Multi-level controls* Section (c) Shut-off Controls Lighting power <85% of allowance Yes For each space, min. one step between 30-70% or meet (b) Yes Lighting power is >85% of allowance Yes Yes Yes Section (d) auto daylight controls Not Required Yes Section (e) Demand Responsive Controls Not Required Yes *The 2016 Energy Standards now allow A/B or checkerboard switching. The previously required multilevel lighting per luminaire is no longer applicable. Lighting Alterations Sections List: Section (a) 1, 2 and 3 Section (c)1a through C Section (c)2 through Section 130.1(c)6A Section (c)7b (for parking garages only) EnergyCodeAce.com Title 24, Part 6 - Nonresidential What s New with 2016 Code Page 20

22 Outdoor Lighting Highlights Outdoor Lighting Zone 0: New lighting zone added for undeveloped areas of state or national parks. No continuous hardscape lighting allowed. A single luminaire of 15 watts or less may be installed in certain areas. Hardscape Lighting Power: Several reductions in lighting allowances have been included in Table A, for each lighting zone (LZ). Additional wattage allowances are applicable for instances where hardscape is more than 50% concrete in LZ2 and LZ3. Specific Applications in Lighting Power: Lighting power allowances for building entrances/exits for LZs 1-4 have been reduced (Table B). Lighting for ATM machines is now 250 watts for the first ATM and 70 watts for each additional machine, across all LZs. Motion Sensors: Motion sensor capabilities must be able to reduce lighting power of each luminaire by at least 40% but not exceeding 90%. Sales lots and sales canopies are no longer exceptions under Section130.2(c)3 of the 2016 Energy Standards. Outdoor Lighting Alterations Section 141.0(b)2L Alterations to existing outdoor lighting shall meet the mandatory requirements in the following sections in the 2016 Energy Standards: Section Section 130.2(a) and (b) Section For alterations that increase the connecting lighting load: Added or altered luminaires must meet the applicable requirements in 2016 Energy Standards of Section 130.2(c) and the requirements of Section for general hardscape lighting or for the specific lighting applications contained the alterations. For alterations that do not increase the connecting lighting load but where the greater of 5 luminaires or 10% of existing luminaires are replaced, the following requirements apply: Parking lots/ outdoor sales lots: For replacement of luminaries mounted 24 ft or less above the ground, alteration must comply with Section 130.2(c)1 and Section 130.2(c)3 of the 2016 Energy Standards. For all other applications (except parking lots/outdoor sales lots) and where the replacement luminaries are mounted above 24 ft (parking lots & sales areas), alteration must comply with Section 130.2(c)1 and either Section 130.2(c)2 or be controlled by lighting controls (motion sensors) that automatically reduce power by 40% when unoccupied. For alterations that do not increase the connecting lighting load but where the greater of 5 luminaires or 50% of existing luminaires are replaced, the following requirements apply: Must meet all above requirements for 10% replacement Section (except when alterations reduce power consumption by 40% compared to the original luminaires) Exceptions for all lighting alterations: Lighting control acceptance testing (per Section of the 2016 Energy Standards) is not required for alterations of a total of 20 or fewer controlled luminaires. This program is funded by California utility customers under the auspices of the California Public Utilities Commission and in support of the California Energy Commission Pacific Gas and Electric Company, San Diego Gas and Electric, Southern California Gas Company and Southern California Edison. All rights reserved, except that this document may be used, copied, and distributed without modification. Neither PG&E, Sempra, nor SCE nor any of their employees makes any warranty, express of implied; or assumes any legal liability or responsibility for the accuracy, completeness or usefulness of any data, information, method, product, policy or process disclosed in this document; or represents that its use will not infringe any privately-owned rights including, but not limited to patents, trademarks or copyrights. EnergyCodeAce.com Title 24, Part 6 - Nonresidential What s New with 2016 Code Page 21