Earthquake-resistant buildings are mandatory in Indonesia because of its high level of earthquake vulnerability. For this reason, the Swiss-Belhotel Darmo, Surabaya as a reference for evaluation, the researcher employed SNI 1726-2019 regarding the procedures to plan earthquake resistance for building and non-building structures. This regulation is widely used currently for planning the structure of buildings to substitute SNI 1726-2012 buildings. Pushover analysis is implemented to evaluate the structure to get the curves of pushover capacity, performance level, and displacement target based on FEMA 356 as well as the ductility occurring in the building structure. The evaluation results demonstrated that the mass participation in the 7th capital, the base shears of ɲx and ɲy were greater than 1, and thus, they have met the requirements. The Story drift did not meet the requirements because its value exceeded the permit limit. Shearwall's contribution fulfilled the requirement of more than 25%. Meanwhile, the control of time history obtained the basic shear results satisfying the requirements for all seismic forces, but the story drift value dissatisfied the requirements because it exceeded the permissible limit for Y seismic force and Y direction. The results of the pushover analysis yielded a drift ratio value of 0.01. Hence, according to FEMA 356, the level of performance was immediate occupancy.

A. Firmansyah et al., “Perencanaan struktur gedung lfc beton bertulang tahan gempa dengan menggunakan sistem ganda pada daerah gempa tinggi,” vol. 7, no. 2, pp. 83–92, 2019.

H. Istiono and L. Khoe, “Analisis Perhitungan Struktur Bangunan Tahan Gempa dengan Kolam Renang Berdasarkan SNI 1726 : 2019,” pp. 1–6, 2019.

D. Ayu and L. Nurul, “Studi Perbandingan Analisis Respon Spektra dan Time History untuk Desain Gedung,” vol. 6, no. 1, pp. 33–38, 2017.

H. Istiono et al., “Analisis Respon Struktur dan Level Kinerja Bangunan Pasca Gempa Pada Gedung Hotel Biliton,” pp. 523–532, 2012.

“ANALISIS PENGARUH P-DELTA EFFECT TERHADAP PERBEDAAN KETINGGIAN STRUKTUR GEDUNG TAHAN GEMPA ( STUDI KASUS : NON-HIGHRISE BUILDING ) Dosen / Jurusan Teknik Sipil , Fakultas Teknik Sipil dan Perencanaan / Institut Teknologi Adhi Tama Surabaya Mahasiswa / Jurusan Teknik Sipil , Fakultas Teknik Sipil dan Perencanaan / Institut Teknologi Adhi Tama Surabaya * Korespondensi : [email protected],” 2020.

E. Wahyuni and Y. Tethool, “Structure- Stell Effect of vierendeel panel width and vertical truss spacing ratio in staggered truss framing system under earthquake loads,” vol. 13, no. 2, 2015.

F. Emergency and M. Agency, “Prestandard and commentary for the seismic rehabilitation of buildings,” no. November, 2000.

T. F. Website, “perkembangan ilmu pengetahuan dan teknologi , pemeliharaan dan penilaian kelayakan dan bangunan gedung dan nongedung sebagai revisi struktur bangunan gedung dan nongedung ; ( Lembaran Negara Republik Indonesia Tahun,” no. 8, 2019.

B. Andreas et al., “PERHITUNGAN INTER STORY DRIFT PADA BANGUNAN TANPA SET-BACK DAN DENGAN SET-BACK AKIBAT GEMPA,” vol. 1, no. 6, 2013.

B. T. Gempa, S. Kasus, G. V Fakultas, and T. Uns, “Volume XIII No.1 Maret 2012 ISSN : 977 – 19799705,” vol. XIII, no. 1, pp. 1–12, 2012.

S. N. Indonesia and B. S. Nasional, “Beban minimum untuk perancangan bangunan gedung dan struktur lain,” 2013.