• Automatically optimizes RCC beam dimensions and reinforcement for economical and code-compliant structural beam design.
• Supports single-span beams with simply supported, partially fixed, and fully fixed end support conditions.
• Performs comprehensive flexure, shear, deflection, cracking, and reinforcement detailing checks for safe beam performance.
• Generates detailed calculations, reinforcement detailing, BOQ, CAD drawings, and optional bar bending schedules automatically.
• Handles multiple load categories with user-defined load factors based on limit state design methodology requirements.
• Automatically optimizes combined footing dimensions and reinforcement for economical and code-compliant foundation system design.
• Supports rectangular and trapezoidal combined footings subjected to axial loads, moments, and eccentric loading conditions.
• Performs comprehensive checks for SBC, shear, flexure, uplift, sliding, overturning, and soil pressure distribution.
• Generates detailed calculations, BOQ, reinforcement detailing, CAD drawings, and optional bar bending schedules automatically.
• Handles multiple columns and load combinations with automatic governing load case identification for foundation design efficiency.
• Automatically optimizes pile cap dimensions and reinforcement for economical and code-compliant foundation design solutions.
• Supports pile caps with multiple pile arrangements subjected to axial loads, moments, and eccentric loading conditions.
• Performs comprehensive checks for punching shear, one-way shear, flexure, pile reactions, and bearing pressure distribution.
• Generates detailed calculations, BOQ, reinforcement detailing, CAD drawings, and optional bar bending schedules automatically.
• Handles multiple load combinations with automatic governing load case selection for efficient pile cap design workflows.
• Automatically optimizes cold-formed lipped Z-purlin sections for economical and code-compliant PEB roof system design.
• Supports flexure, shear, deflection, and combined loading checks for practical industrial and warehouse roof applications.
• Evaluates section strength considering cold-formed steel behavior, lip stiffening effects, and purlin span conditions.
• Generates detailed calculations, section properties, connection information, and CAD-ready engineering output automatically.
• Suitable for pre-engineered buildings with multiple loading combinations including dead, live, wind, and uplift effects.
• Automatically optimizes ring wall foundation dimensions for economical storage tank foundations supporting liquid and grain storage systems.
• Supports anchored and unanchored tanks with integrated checks for uplift, bearing pressure, sliding, overturning, and stability.
• Evaluates ring wall reinforcement, anchor chairs, annular loading, and soil pressure distribution under critical loading conditions.
• Generates detailed calculations, BOQ, reinforcement detailing, CAD drawings, and optional bar bending schedules automatically.
• Supports practical tank foundation features including leak detection systems, anchor bolts, and tank shell load transfer arrangements.
• Automatically optimizes cantilever retaining wall dimensions for economical concrete, reinforcement, and soil-retaining system design.
• Performs comprehensive stability checks including overturning, sliding, bearing pressure, uplift, and overall structural safety evaluations.
• Supports surcharge loads, soil parameters, groundwater effects, and multiple backfill conditions for realistic retaining wall analysis.
• Generates detailed calculations, BOQ, reinforcement detailing, CAD drawings, and optional bar bending schedules automatically.
• Evaluates stem, heel, toe, and key components with integrated flexure, shear, and soil pressure design checks.
• Calculates optimum downspout spacing for roof drainage systems in gable-framed pre-engineered building structures.
• Applicable for eaves gutters, valley gutters, and similar roof drainage gutter configurations in industrial buildings.
• Evaluates both gutter flow capacity and downspout discharge capacity to determine governing allowable downspout spacing.
• Supports circular and rectangular downspouts using rainfall intensity, roof catchment area, and gutter geometry inputs.
• Follows SMACNA-type roof drainage practices with provisions for practical code-based drainage system evaluation.
• Designs gravity stormwater drains using Manning’s equation for safe and efficient flow velocity calculations.
• Supports rectangular, trapezoidal, and circular drain configurations for diverse drainage and infrastructure applications.
• Allows user-defined upper and lower velocity limits to achieve non-silting and non-scouring flow conditions.
• Calculates required drain dimensions using rainfall intensity, site parameters, discharge requirements, and drain slope inputs.
• Supports flexible freeboard input either as percentage of depth/diameter or as a direct numerical value.
Applicable Standards: American, Australian, Brazilian, British, Canadian, Chinese, Dutch, European, French, German, Indian, Japanese, Jindal, Mexican, Russian, South African, South Korean, Spanish, Venezuelan
• Generates pre-configured load combinations based on major steel and RCC structural design code provisions.
• Handles up to seven active primary load cases simultaneously for flexible structural loading scenarios.
• Produces up to 500 serviceability or stress-design load combinations instantly at a single mouse click.
• Generates load combination strings compatible with commonly used structural analysis and design software applications.
• Provides organized and review-friendly tabulated summaries for easy verification, modification, and maintenance of load combinations.
Applicable Codes : ACI – 318 – LRFD, ACI – 318 – ASD, ASCE – LRFD, ASCE – ASD, ASCE – LRFD – (O&G) Ser, ASCE – LRFD – (O&G) Str, ASCE – ASD - (O&G) Ser, BS 8110 – LRFD, BS 810 – ASD, EN 1992 – 1 – LRFD, EN 1992 – 1- ASD, IBC – LRFD, IBC – ASD, IS 456 – LSM, IS – 800 – ASD
• Computes wind pressures for RCC and steel rectangular-clad structures with flat or pitched roof configurations.
• Supports roofs with steel trusses or gable frames using major international wind load design codes adopted worldwide.
• Accepts roof slope input either as 1:X ratio or directly through ridge height specification.
• Automatically generates pressure coefficients, wind pressures, UDL values, and load directions in structured output sheets.
• Produces eight primary wind load cases considering both pressure and suction effects for structural analysis applications.
 Applicable Codes: IS 875 (Part-3): 2015
• Automatically optimizes slab thickness, reinforcement diameter, and spacing to achieve the most cost-effective RCC slab design.
• Supports ultimate limit state design using user-defined load factors for dead, live, and blast loading conditions.
• Allows three independent area load categories for realistic slab loading and specialized roof slab blast design applications.
• Designs slabs with various combinations of continuous and discontinuous edges for versatile structural configurations.
• Performs comprehensive flexure, shear, and deflection checks to ensure safe, practical, and code-compliant slab designs.
Applicable Codes: IS 456 (LSD)
• Calculates steel quantities for 34 structural member types and 3 fabricated assemblies, such as handrails, ladders, and staircases.
• Supports rolled, built-up, hot-rolled, and cold-formed sections used in heavy steel and PEB industries.
• Includes editable international steel databases with section names, manufacturer details, and built-in unit weight tables.
• Generates BOQ classifications member-wise, assembly-wise, or through up to 30 customizable user-defined categories.
• Produces organized output sheets automatically with flexible quantity segregation suitable for complex multi-storey projects.
Section Profiles: American, American Steel Joist, APL Apollo Tubes, Australian, Brazilian, British, Canadian, Chinese, Dutch, European, French, German, Indian, Japanese, Jindal, Mexican, Russian (GOST), Russian (STO ASChM), South African, South Korean, Spanish, TATA Structura, Venezuelan
• AI-driven optimization identifies the most cost-effective footing size by considering concrete, steel, and formwork material rates. (View Flowchart).
• Handles 51 support joints and 251 load combinations with automatic governing load combination selection.
• Performs comprehensive footing checks including SBC, shear, flexure, uplift, sliding, overturning, and soil contact limitations.
• Generates detailed calculations, BOQ, BBS, and CAD drawings with footing layout and reinforcement detailing automatically.
• Supports automatic STAAD and ETABS reaction import with seamless global-to-local axis transformation of reactions.
Design Codes : BS 8110 (LSD), EN 1992 – 1 (LSD), IS 456 (LSD)
• AI-driven optimization identifies the most cost-effective pedestal size by considering concrete, steel, and formwork material rates. (View Flowchart).
• Handles 51 support joints and 251 load combinations with automatic governing load combination selection.
• Performs compression with bending, tension with bending, shear, and interaction checks in accordance with the selected design code.
• Generates detailed calculations, BOQ, BBS, and CAD drawings with complete reinforcement detailing automatically.
• Supports automatic STAAD and ETABS reaction import with seamless global-to-local axis transformation of reactions.
Design Codes : EN 1992 – 1 (LSD), IS 456 (LSD), IS 456 + 13920 (LSD)
• Designs stiffened and unstiffened baseplates, with or without shear keys, for axial loads with biaxial moments.
• Handles 51 support joints and 251 load combinations, automatically selecting all governing design combinations.
• Generates code-based calculations, BOQ, and ready-to-use CAD drawings instantly for drafting and 3D modeling.
• Supports automatic import of STAAD and ETABS reactions with automatic global-to-local axis transformation.
• Automatically optimizes anchors, stiffeners, shear keys, and baseplate dimensions while maintaining mandatory detailing clearances.
Design Codes : IS 800 (LSD)
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